CN116588476A - Medicine filling bottle for quantitatively extracting pills for medical treatment - Google Patents

Abstract

The utility model relates to the technical field of medicine bottles, in particular to a medicine filling bottle for quantitatively extracting pills for medical treatment. The quantitative medicine taking device is designed, a medicine bottle is placed upside down, then a button is pressed, a taking rod stretches out to separate pills, meanwhile, a baffle rod is retracted, pills between the taking rod and the baffle rod fall out of a taking groove, the quantitative medicine taking process is realized, the button is loosened, the taking rod is retracted, the baffle plate is retracted to block the taking groove, the automatic feeding process is realized, and the problems that the medicine is poured from the medicine bottle in a bumpy manner, and secondary pollution is caused by excessive medicine taking and pouring back of the medicine bottle are solved; the medicine can be taken quantitatively without directly contacting with the pill in the whole process, so that the problem that the medicine spoon or the medicine distributing clamp directly extends into the medicine bottle from the bottle mouth to take the medicine and pollute the medicine is solved; the dosage of quantitative medicine taking can be freely adjusted by adjusting the position of the lock nut, and the operation is simple and the use is convenient.

Description

Medicine filling bottle for quantitatively extracting pills for medical treatment

Technical Field

The utility model relates to the technical field of medicine bottles, in particular to a medicine filling bottle for quantitatively extracting pills for medical treatment.

Background

Medical personnel are dispensing for the patient, jolt the medicine bottle and pour out from the opening part of medicine bottle to the quantity of clear pellet of number that can be clear, however, often because too big with effort leads to a large amount of medicines to be poured out, so, only with the medicine repacking back into the medicine bottle again in, easily cause the secondary pollution of medicine. Or the medicine is taken out and counted again to be delivered to the patient by using a medicine distributing spoon or a medicine distributing clamp to extend into the medicine bottle from the bottle mouth. In view of the above-mentioned technical requirements, there is an urgent need for a vial that presents an accurate number of pills that are conveniently counted and emptied.

Currently, there are vials that are capable of dosing, but they are still deficient.

For example, the patent of publication No. CN206624226U discloses a simple and easy ration medicine bottle of improved generation, including the bottle that is used for adorning circular pellet, the bottle top has cylindric bottleneck, still include the bottle lid, the bottle lid includes circular apron and spiro union in the cover in the bottleneck outside, be equipped with bar pole hole on the apron, pole length direction both sides pore wall is the arc, still include the round rod-shaped pole of getting it filled, it is equipped with a plurality of grooves to get filled the pole wall, it inlays in the pole downthehole to get filled the pole, get filled the pole wall and get filled the hole both sides pore wall activity laminating in groove, get filled pole both ends and get filled the groove both ends pore wall and offset, it can rotate around self axis at getting filled the inslot to get filled the pole, make the whole orientation bottle inboard or the orientation bottle outside of getting filled the medicine. Although this embodiment can control the dosage, it adopts the mode that gets the pole of getting it filled to roll to take out the medicine, has only can get one in every roll, the medicine gets into the medicine groove and need lean on probability (the difficult time getting when the medicine is few), need roll to get the pole of getting it filled and touch the hand and cause pollution scheduling problem.

For example, the patent with publication number of CN203020771U discloses a medicine bottle, especially a medicine bottle convenient for quantitatively taking medicine, comprising a bottle body and a bottle cap, wherein the bottle body is provided with a bottle opening, the inner wall of the bottle opening is provided with a trapezoid medicine taking groove, and when taking pills, the pills slide out along the trapezoid medicine taking groove, so that the medicine taking amount is convenient to control, thereby avoiding the artificial pollution of the pills in the medicine taking process and ensuring the quality of the pills. The disadvantage is that the medicine taking is controlled by the size of the bottle mouth and the shaking force, and the accuracy is basically difficult to control.

For example, patent publication No. CN203020771U discloses a medicine bottle which is convenient for quantitative medicine taking, comprising a bottle cap, a bottle body and a knob; the bottle cap is arranged on the bottle body; the bottle cover is provided with a cover plate, and the middle part of the cover plate is provided with a mounting groove; the cover plate comprises a first mounting plate and a second mounting plate; a mounting bin is formed between the first mounting plate and the second mounting plate; a plurality of medicine outlet holes are formed in the second mounting plate; the knob is arranged on the bottle cap and positioned in the mounting groove; the bottom of the knob is provided with an elastic piece; a support column is arranged at the middle position of the bottom of the knob and penetrates through the second mounting plate; the bottom of the support column is provided with a limit plate; a plurality of baffles are horizontally arranged on the knob; the baffle is positioned in the installation bin; the bottle cap is internally provided with a mounting rod, and one end of the baffle is provided with a through hole matched with the mounting rod; according to the utility model, through the bottle cap with the knob, the problem of medicine pollution caused by excessive medicine taking out of limited medicine placement can be solved at one time by adjusting the knob in the medicine taking process. The patent is to control the quantity of medicine through rotating the quantity of medicine outlet holes, and further control the medicine quantity, and the disadvantage of the patent is that the medicine quantity is controlled by the shaking force and the probability of medicine entering the holes, so that the medicine quantity is not accurate.

For example, the patent of publication number CN207293036U discloses a be applied to public medical treatment's ration bottle of getting it filled, including bottle lid, bottle lid and bottle are the cylinder that has the cavity, and the inside wall of bottle lid is provided with the internal thread, and the lateral wall of the bottleneck section of bottle is provided with the external screw thread, the internal thread phase-match of external screw thread and bottle lid inside wall, the inner chamber level of bottle be provided with circular baffle, circular baffle makes the bottle divide into flourishing medicine bottle and get the medicine bottle, and circular baffle makes flourishing medicine bottle and get and separates completely between the medicine bottle, flourishing medicine bottle accounts for two thirds of the total volume of bottle, the center department of circular baffle is provided with the through-hole one for the pellet, one can hold a pellet and spill, get the medicine bottle in be provided with the device of getting it spills by the through-hole one place pellet. When medicine is required to be taken, the handle 4 is drawn to separate the circular baffle 11 from the through hole I, pills fall into the medicine taking groove 6 from the medicine containing bottle through the through hole I, the handle 4 is pushed to enable the circular baffle 11 to coincide with the through hole I, so that other pills are prevented from falling into the medicine taking groove 6, the rotary knob 3 is rotated, the medicine taking groove 6 is driven to rotate through the first connecting rod 5, the notch of the medicine taking groove 6 rotates towards the opening of the medicine taking pipe 9, one pill in the medicine taking groove 6 is separated from the medicine taking groove 6 along with the rotation of the medicine taking groove 6, the pill falls into the medicine taking pipe 9 under the action of gravity, and the second pill and the third pill can be sequentially taken out according to the method. The medicine taking device is characterized in that one medicine is taken out at a time through a complex structure, so that the medicine taking quantity is controlled, the operation is troublesome, one medicine is needed, and the time is wasted.

Aiming at the technical problems, the utility model essentially aims at solving the problems that: the structure is different from the technical scheme, the single operation in the medicine taking process can realize the required medicine taking amount, prevent the medicine taking amount from being more or less, can automatically take medicine according to the requirement, can regulate and control the medicine amount required by the medicine, and can ensure that the medicine is not polluted.

Disclosure of Invention

The utility model aims at solving the technical problems, and provides a medicine bottle for quantitatively extracting pills for medical treatment, the medicine bottle is reversely placed, then a button is pressed, a material taking rod stretches out to separate the pills, meanwhile, a baffle rod is retracted, the pills between the material taking rod and the baffle rod fall out of a material taking groove, the quantitative medicine taking process is realized, a material taking groove is blocked by loosening a baffle plate for the material taking rod by the button, the automatic feeding process is realized, and the problems of secondary pollution caused by jolt pouring medicine from the medicine bottle and excessive medicine taking pouring back to the medicine bottle are solved; the medicine can be taken quantitatively without directly contacting with the pill in the whole process, so that the problem that the medicine spoon or the medicine distributing clamp directly extends into the medicine bottle from the bottle mouth to take the medicine and pollute the medicine is solved; the dosage of quantitative medicine taking can be freely adjusted by adjusting the position of the lock nut, and the operation is simple and the use is convenient.

In order to solve the technical problems, the utility model adopts the following technical scheme: comprises a medicine bottle, a top cover and a quantitative medicine taking device; the top cover is arranged at the top of the medicine bottle; the quantitative medicine taking device is arranged at the top end of the interior of the medicine bottle; a first strip-shaped groove is formed in one side of the middle part of the top of the medicine bottle in the height direction; a second strip-shaped groove is formed in one side of the first strip-shaped groove; the quantitative medicine taking device comprises a fixed plug, a button, a connecting rod, a material taking rod, an adjusting rod, a torsion spring and a locking nut; the fixed plug is sleeved at the top end of the interior of the medicine bottle; the middle part of the fixed plug is provided with a material taking groove in a penetrating way; a groove is formed in one side of the inside of the fixed plug; a fixed shaft is arranged on the left side of the middle position inside the groove; the middle part of the connecting rod is connected with the rotating shaft of the fixed shaft.

Further optimizing the technical scheme, the two sides of the middle part of the connecting rod are provided with sliding grooves; a first guide rail is arranged above the right side of the middle part of the groove; the first guide rail penetrates through the material taking groove; a baffle rod is connected inside the first guide rail in a sliding way; the bottom of the baffle rod is connected with the top chute in a sliding way; a second guide rail is arranged above the right side of the middle part of the groove; a sliding block is connected inside the second guide rail in a sliding way; the middle part of the left side of the sliding block is provided with a push rod; the push rod penetrates through the middle part of the left side of the second guide rail; the left side of the push rod is connected with the bottom chute in a sliding way.

Further optimizing the technical scheme, the bottom of the material taking rod is provided with a convex block; the middle part of the right side of the sliding block is provided with a sliding rail in the height direction; the protruding blocks are connected with the sliding rail in a sliding way.

Further optimizing the technical scheme, the connecting rod is connected with the connecting part of the rotating shaft of the fixed shaft through a torsion spring; the middle part of the left side of the groove is provided with a through groove; the middle part of the button is communicated and slidingly connected inside the through groove; the bottom of the button is contacted with one side of the connecting rod.

Further optimizing the technical scheme, the bottom of the adjusting rod is provided with a lantern ring; the lantern ring is connected with the middle part of the material taking rod in a sliding way; the bottom of the right side of the groove is provided with an adjusting groove; the adjusting groove is vertical to the groove; a separation table is arranged on the right side of the adjusting rod; a partition groove is formed in the right side of the middle of the adjusting groove; the isolation table is connected with the isolation groove in a sliding way; the bottom of the isolation groove is clamped with the top of the adjusting rod; the top of the isolation table is fixedly connected with the top of the isolation groove through a lock nut.

Compared with the prior art, the utility model has the following advantages: 1. the design of the quantitative medicine taking device is that a medicine bottle is placed upside down, then a button is pressed, a taking rod stretches out to separate pills, meanwhile, a baffle rod is retracted, pills between the taking rod and the baffle rod fall out of a taking groove, the quantitative medicine taking process is realized, the taking groove is blocked by loosening the button taking rod to retract a baffle plate, the automatic feeding process is realized, and the problems of secondary pollution caused by jolt pouring medicine from the medicine bottle and excessive medicine taking pouring back to the medicine bottle are solved; 2. the medicine can be taken quantitatively without directly contacting with the pill in the whole process, so that the problem that the medicine spoon or the medicine distributing clamp directly extends into the medicine bottle from the bottle mouth to take the medicine and pollute the medicine is solved; 3. the dosage of quantitative medicine taking can be freely adjusted by adjusting the position of the lock nut, and the operation is simple and the use is convenient.

Drawings

Figure 1 is an isometric view of a general assembly of a drug vial for the medical use of a metered dose pill.

Fig. 2 is a partial cross-sectional view of the internal transmission structure of a quantitative medicine taking device for a medicine filling bottle for quantitatively taking out pills for medical treatment.

Fig. 3 is a partial sectional view and an enlarged partial structural view showing the internal structure of a quantitative medicine taking device for a medicine bottle for quantitatively taking out a medicine pill for medical use.

In the figure: 1. a medicine bottle; 101. a first bar-shaped groove; 102. a second bar-shaped groove; 2. a top cover; 3. a quantitative medicine taking device; 301. a fixed plug; 302. a button; 303. a connecting rod; 304. a take-out rod; 305. an adjusting rod; 306. a torsion spring; 307. locking a nut; 308. a material taking groove; 309. a groove; 310. a fixed shaft; 311. a chute; 312. a first guide rail; 313. a gear lever; 314. a second guide rail; 315. a slide block; 316. a push rod; 317. a bump; 318. a slide rail; 319. a through groove; 320. a collar; 321. an adjustment tank; 322. a separation table; 323. and a separation groove.

Description of the embodiments

The objects, technical solutions and advantages of the present utility model will become more apparent by the following detailed description of the present utility model with reference to the accompanying drawings. It should be understood that the description is only illustrative and is not intended to limit the scope of the utility model. In addition, in the following description, descriptions of well-known structures and techniques are omitted so as not to unnecessarily obscure the present utility model.

The first embodiment is as follows: referring to fig. 1 to 3, a medicine bottle for quantitatively extracting pills for medical use is characterized in that: comprises a medicine bottle 1, a top cover 2 and a quantitative medicine taking device 3; the top cover 2 is arranged at the top of the medicine bottle 1; the quantitative medicine taking device 3 is arranged at the top end inside the medicine bottle 1; a first bar-shaped groove 101 is arranged on one side of the middle part of the top of the medicine bottle 1 in the height direction; a second bar-shaped groove 102 is arranged on one side of the first bar-shaped groove 101; the quantitative medicine taking device 3 comprises a fixed plug 301, a button 302, a connecting rod 303, a taking rod 304, an adjusting rod 305, a torsion spring 306 and a locking nut 307; the fixed plug 301 is sleeved at the top end of the interior of the medicine bottle 1; a material taking groove 308 is arranged in the middle of the fixed plug 301 in a penetrating way; a groove 309 is formed in one side of the inside of the fixed plug 301; a fixed shaft 310 is arranged at the left side of the middle position inside the groove 309; the middle part of the connecting rod 303 is connected with a fixed shaft 310 in a rotating way; the two sides of the middle part of the connecting rod 303 are provided with sliding grooves 311; a first guide rail 312 is arranged above the right side of the middle part of the groove 309; the first guide rail 312 penetrates through the material taking groove 308; a baffle rod 313 is connected inside the first guide rail 312 in a sliding way; the bottom of the baffle 313 is connected with the top chute 311 in a sliding way; a second guide rail 314 is arranged above the right side of the middle part of the groove 309; a sliding block 315 is connected inside the second guide rail 314 in a sliding manner; the middle part of the left side of the sliding block 315 is provided with a push rod 316; the push rod 316 penetrates through the middle part of the left side of the second guide rail 314; the left side of the push rod 316 is connected with the bottom chute 311 in a sliding way; the bottom of the material taking rod 304 is provided with a convex block 317; the middle part of the right side of the sliding block 315 is provided with a sliding rail 318 in the height direction; the bump 317 is slidably connected to the slide rail 318; the connecting rod 303 is connected with the rotating shaft of the fixed shaft 310 through a torsion spring 306; the left middle part of the groove 309 is provided with a through groove 319; the middle part of the button 302 is connected inside the through groove 319 in a penetrating and sliding way; the bottom of the button 302 is in contact with one side of the connecting rod 303.

When the medicine bottle is used, step one, as shown in fig. 1-3, the top cover 2 is opened to invert the medicine bottle 1, pills in the medicine bottle 1 move into the material taking groove 308, in this state, the baffle rod 313 is positioned in the material taking groove 308, pills are blocked by the baffle rod 313, the button 302 is pushed downwards in the medicine taking process, the button 302 slides inwards along the through groove 319, as the bottom of the button 302 is contacted with one side below the middle part of the connecting rod 303, in the process of pushing the button 302 downwards, the middle part of the connecting rod 303 rotates anticlockwise around the fixed shaft 310 to compress the torsion spring 306, the connecting rod 303 rotates anticlockwise to push the sliding block 315 to slide to the right side along the second guide rail 314 through the push rod 316 through the bottom sliding groove 311, so as to push the convex block 317 and the material taking rod 304 to move towards the material taking groove 308, the pills below the material taking rod 304 in the material taking groove 308 are separated by layers through the right end of the material taking plate, and the pills in the medicine bottle 1 are blocked by the baffle plate; the connecting rod 303 rotates anticlockwise and pulls the baffle rod 313 to slide horizontally leftwards along the first guide rail 312 through the top chute 311, when the button 302 moves to the bottom, the baffle rod 313 and the material taking groove 308 are completely separated, at this time, pills between the baffle rod 313 and the material taking plate fall out of the bottom of the material taking groove 308, and the number of pills between the baffle rod 313 and the material taking rod 304 is fixed because the interval between the baffle rod 313 and the material taking rod 304 is fixed; therefore, the quantitative medicine taking process is realized, and the problem of secondary pollution caused by pouring medicine from the medicine bottle 1 and pouring excessive medicine back into the medicine bottle 1 is solved.

Step two, as shown in fig. 1-3, when the button 302 is released, the connecting rod 303 rotates clockwise under the action of the torsion spring 306, so as to push the stop rod 313 to move rightward along the first guide rail 312 to stop the bottom of the material taking groove 308; the connecting rod 303 rotates clockwise to push the push rod 316 to move leftwards through the bottom chute 311, so that the sliding block 315 is pulled to move rightwards along the second guide rail 314, and the material taking rod 304 is pulled to slide leftwards along the collar 320; the connecting rod 303 rotates clockwise and pushes the button 302 to move leftwards along the through groove 319, when the button 302 moves to the top, the material taking rod 304 and the material taking groove 308 are completely separated, the baffle rod 313 and the material taking rod 304 are reset, pills in the medicine bottle 1 can not fall under the action of the baffle rod 313, and the quantitative medicine taking process is finished once; the above operation is repeated, so that the quantitative medicine taking process can be realized for multiple times, the medicine can be taken quantitatively without directly contacting with the pill in the whole process, and the problem that the medicine spoon or the medicine distributing clamp directly stretches into the medicine bottle 1 from the bottle mouth to take medicine and pollute the medicine is solved.

The second embodiment is as follows: the related structure of adjusting the dosage is added to the first embodiment described above in conjunction with fig. 1-3.

Specifically, the following features are added on the basis of the first embodiment: the bottom of the adjusting rod 305 is provided with a lantern ring 320; the collar 320 is slidably connected to the middle of the take-off bar 304; the bottom of the right side of the groove 309 is provided with an adjusting groove 321; the adjusting groove 321 is perpendicular to the groove 309; a separation table 322 is arranged on the right side of the adjusting rod 305; a partition groove 323 is formed in the right side of the middle of the adjusting groove 321; the separation table 322 is in sliding connection with the separation groove 323; the bottom of the separation groove 323 is clamped with the top of the adjusting rod 305; the top of the separation table 322 is fixedly connected with the top of the separation groove 323 through the lock nut 307.

In the practical process, the third step is added on the basis of the first step and the second step in the embodiment.

Step three, as shown in fig. 1-3, because the bottom of the lock nut 307 is in threaded connection with the top of the separation table 322, the locking state of the top of the adjusting rod 305 of the lock nut 307 and the bottom of the separation groove 323 is released by rotating the lock nut 307 anticlockwise, at this time, the lock nut 307 is pushed upwards, the separation table 322 is driven to slide upwards along the separation groove 323 by the upward movement of the lock nut 307, the adjusting rod 305 is driven to slide upwards along the adjusting groove 321 synchronously, the material taking rod 304 is driven to move upwards by the collar 320 in the upward movement process of the adjusting rod 305, so that the bump 317 is driven to slide upwards along the sliding rail 318, the material taking rod 304 is adjusted to a proper position, the lock nut 307 is rotated clockwise, the lock nut 307 is continuously rotated when the bottom of the lock nut 307 is contacted with the top of the separation table 322, the lock nut 307 pulls the top of the adjusting rod 305 to be tightly attached to the bottom of the separation groove 323, the adjusting rod 305 is fixed to a designated height by the lock nut 307, the material taking rod 304 is fixed at the designated height, the distance between the material taking rod 304 and the stop rod 313 is reduced, and the medicine taking amount is reduced at one time; the locking nut 307 is pulled upwards in the same way, the material taking rod 304 moves downwards, the distance between the material taking rod 304 and the baffle rod 313 is increased, the medicine taking amount is increased once, and the whole process is simple to operate and convenient to use.

It is to be understood that the above-described embodiments of the present utility model are merely illustrative of or explanation of the principles of the present utility model and are in no way limiting of the utility model. Accordingly, any modification, equivalent replacement, improvement, etc. made without departing from the spirit and scope of the present utility model should be included in the scope of the present utility model. Furthermore, the appended claims are intended to cover all such changes and modifications that fall within the scope and boundary of the appended claims, or equivalents of such scope and boundary.

Claims (4)

1. The utility model provides a medicine bottle of medicine ration extraction pellet, includes medicine bottle (1), top cap (2) and ration medicine taking device (3), and top cap (2) are installed at medicine bottle (1) top, and ration medicine taking device (3) set up on medicine bottle (1) inside top, its characterized in that: a first strip-shaped groove (101) is arranged on one side of the middle part of the top of the medicine bottle (1) in the height direction; a second bar-shaped groove (102) is arranged on one side of the first bar-shaped groove (101); the quantitative medicine taking device (3) comprises a fixed plug (301), a button (302), a connecting rod (303), a taking rod (304), an adjusting rod (305), a torsion spring (306) and a locking nut (307); the fixed plug (301) is sleeved at the top end of the interior of the medicine bottle (1); a material taking groove (308) is arranged in the middle of the fixed plug (301) in a penetrating way; a groove (309) is formed in one side of the inside of the fixed plug (301); a fixed shaft (310) is arranged at the left side of the middle position inside the groove (309); the middle part of the connecting rod (303) is connected with a rotating shaft of the fixed shaft (310);

sliding grooves (311) are formed in two sides of the middle of the connecting rod (303); a first guide rail (312) is arranged above the right side of the middle part of the groove (309); the first guide rail (312) penetrates through the material taking groove (308); a baffle rod (313) is connected inside the first guide rail (312) in a sliding way; the bottom of the baffle rod (313) is connected with the top chute (311) in a sliding way; a second guide rail (314) is arranged above the right side of the middle part of the groove (309); a sliding block (315) is connected inside the second guide rail (314) in a sliding way; a push rod (316) is arranged in the middle of the left side of the sliding block (315); the push rod (316) penetrates through the middle part of the left side of the second guide rail (314); the left side of the push rod (316) is connected with the bottom chute (311) in a sliding way;

a bump (317) is arranged at the bottom of the material taking rod (304); the middle part of the right side of the sliding block (315) is provided with a sliding rail (318) in the height direction; the convex blocks (317) are in sliding connection with the sliding rails (318);

the connecting rod (303) is connected with the rotating shaft of the fixed shaft (310) through a torsion spring (306); the middle part of the left side of the groove (309) is provided with a through groove (319); the middle part of the button (302) is communicated and slidingly connected inside the through groove (319); the bottom of the button (302) is contacted with one side of the connecting rod (303).

2. A medical pill bottle for quantitatively extracting pills according to claim 1, wherein: when the medicine taking device is used, the top cover (2) is opened to enable the medicine bottle (1) to be inverted, pills in the medicine bottle (1) can move into the material taking groove (308), the baffle rod (313) is positioned in the material taking groove (308) in the state, the pills are blocked by the baffle rod (313), in the medicine taking process, the button (302) is pushed downwards to slide inwards along the through groove (319), the bottom of the button (302) is contacted with one side below the middle part of the connecting rod (303), in the pushing process of the button (302), the middle part of the connecting rod (303) rotates anticlockwise around the fixed shaft (310) to compress the torsion spring (306), the connecting rod (303) rotates anticlockwise to push the slider (315) to slide to the right side along the second guide rail (314) through the push rod (316), so that the lugs (317) and the material taking rod (304) are pushed to move towards the direction of the groove (308), in the process of pushing the pills below the material taking groove (304) in the material taking groove (308), and the pills in the material taking groove (308) are blocked by the baffle plate (308) in a layering way through the right end of the material taking plate; the connecting rod (303) rotates anticlockwise and simultaneously pulls the baffle rod (313) to slide leftwards along the first guide rail (312) horizontally through the top chute (311), when the button (302) moves to the bottom, the baffle rod (313) and the material taking groove (308) are completely separated, pills between the baffle rod (313) and the material taking plate fall out from the bottom of the material taking groove (308), and the number of pills between the baffle rod (313) and the material taking rod (304) is constant because the interval between the baffle rod (313) and the material taking rod (304) is constant; therefore, the quantitative medicine taking process is realized, and the problem of secondary pollution caused by pouring medicine from the medicine bottle (1) and pouring too much medicine into the medicine bottle (1) is solved;

when the button (302) is released, the connecting rod (303) rotates clockwise under the action of the torsion spring (306), so that the blocking rod (313) is pushed to move rightward along the first guide rail (312) to block the bottom of the material taking groove (308); the connecting rod (303) rotates clockwise to push the push rod (316) to move leftwards through the bottom chute (311), so that the sliding block (315) is pulled to move rightwards along the second guide rail (314), and the material taking rod (304) is pulled to slide leftwards along the sleeve ring (320); the connecting rod (303) rotates clockwise and pushes the button (302) to move leftwards along the through groove (319), when the button (302) moves to the top, the material taking rod (304) and the material taking groove (308) are completely separated, the baffle rod (313) and the material taking rod (304) are reset, pills in the medicine bottle (1) cannot fall under the action of the baffle rod (313), and the quantitative medicine taking process is finished once; the quantitative medicine taking process can be realized by repeating the above operation for multiple times, and the quantitative medicine taking can be realized without directly contacting with the pill in the whole process, so that the problem that the medicine spoon or the medicine distributing clamp directly stretches into the medicine bottle (1) from the bottle mouth to take medicine and pollute the medicine is solved.

3. A bottle for the quantitative extraction of pills for medical use according to claim 1 or claim 2, characterized in that: a lantern ring (320) is arranged at the bottom of the adjusting rod (305); the lantern ring (320) is in sliding connection with the middle part of the material taking rod (304); an adjusting groove (321) is formed in the bottom of the right side of the groove (309); the adjusting groove (321) is vertical to the groove (309); a separation table (322) is arranged on the right side of the adjusting rod (305); a separation groove (323) is arranged on the right side of the middle part of the adjusting groove (321); the separation table (322) is in sliding connection with the separation groove (323); the bottom of the separation groove (323) is clamped with the top of the adjusting rod (305); the top of the isolation table (322) is fixedly connected with the top of the isolation groove (323) through the lock nut (307).

4. A medical pill-taking bottle according to claim 3, wherein: because the bottom of the lock nut (307) is in threaded connection with the top of the separation table (322), the lock nut (307) is rotated anticlockwise, the top of the adjusting rod (305) of the lock nut (307) and the bottom of the separation table (323) are released, at the moment, the lock nut (307) is pushed upwards to drive the separation table (322) to slide upwards along the separation table (323), the adjusting rod (305) is driven to slide upwards synchronously along the adjusting groove (321), the material taking rod (304) is driven to move upwards through the lantern ring (320) in the process of moving upwards the adjusting rod (305), the protruding block (317) is driven to slide upwards along the sliding rail (318), the material taking rod (304) is adjusted to a proper position, the lock nut (307) is rotated clockwise, the lock nut (307) is continuously rotated when the bottom of the lock nut (307) is contacted with the top of the separation table (322), the top of the lock nut (307) is pulled to be tightly attached to the bottom of the separation table (323), the adjusting rod (305) is fixed to a designated height through the lock nut (307), the material taking rod (304) is fixed to the designated height, the distance between the material taking rod (304) and the medicine is reduced once; the locking nut (307) is pulled upwards in the same way, the material taking rod (304) moves downwards, the distance between the material taking rod (304) and the baffle rod (313) is increased, and the medicine taking amount at one time is increased.