CN214242943U

CN214242943U - Quantitative sorting device for traditional Chinese medicine formula particles

Info

Publication number: CN214242943U
Application number: CN202022990010.8U
Authority: CN
Inventors: 方雨萌; 陈浩; 唐女智; 李钢; 祝雯霞
Original assignee: University of South China
Current assignee: University of South China
Priority date: 2020-12-14
Filing date: 2020-12-14
Publication date: 2021-09-21
Anticipated expiration: 2030-12-14

Abstract

The quantitative sorting device for the traditional Chinese medicine formula particles comprises a sorting mechanism, a medicine bottle, a blanking control mechanism and a blanking pipe; the sorting mechanism comprises a cylinder body, a bottom plate, a top plate, a rotating shaft, a sweeping disc and a stepping motor A; the medicine bottle comprises a bottle body, a bottle cap and a gear A; the blanking control mechanism comprises a stepping motor B, a bracket and a gear B; the discharge pipe is arranged between the medicine bottle and the sorting mechanism, the upper end of the discharge pipe is communicated with the discharge port A of the medicine bottle, and the lower end of the discharge pipe is communicated with the feeding hole of the sorting mechanism. The utility model discloses be applied to traditional chinese medicine intelligence dispensing system, as traditional chinese medicine intelligence dispensing system's important component, can realize the quantitative letter sorting of traditional chinese medicine prescription granule. The opening duration of the medicine bottle is controlled, so that a certain amount of traditional Chinese medicine formula particles are discharged from the medicine bottle, meanwhile, the rotation of the sweeping disc is matched, the traditional Chinese medicine formula particles are divided into a plurality of parts and input into different material storage intervals, and the traditional Chinese medicine formula particles in each material storage interval are discharged through the discharge hole of the bottom plate along with the rotation of the sweeping disc.

Description

Quantitative sorting device for traditional Chinese medicine formula particles

Technical Field

The utility model relates to a traditional chinese medicine intelligence dispensing system technical field, especially a traditional chinese medicine prescription granule quantitative sorting device.

Background

The existing traditional Chinese medicine cabinets are generally common cabinets only having the function of storing traditional Chinese medicines, such as wooden cabinets provided with a plurality of lattices for placing traditional Chinese medicines. The traditional Chinese medicine cabinet with the structure needs to perform management work such as checking, medicine finding, medicine taking, medicine dispensing and the like on the placed traditional Chinese medicines by pure manpower, is very easy to make mistakes, and has very low efficiency.

In order to solve the defects, an intelligent traditional Chinese medicine dispensing system with automatic medicine finding, medicine taking, dispensing and checking functions appears in the industry, and the system can realize quick dispensing based on a specific traditional Chinese medicine prescription. In the intelligent dispensing system for traditional Chinese medicine, how to realize quantitative fetching (sorting) of traditional Chinese medicine is the design difficulty.

Disclosure of Invention

The utility model aims at overcoming the not enough of prior art, and provide a traditional chinese medicine prescription granule quantitative sorting device, it is applied to traditional chinese medicine intelligence dispensing system, as traditional chinese medicine intelligence dispensing system's important component, can realize the quantitative sorting of traditional chinese medicine prescription granule.

The technical scheme of the utility model is that: the quantitative sorting device for the traditional Chinese medicine formula particles comprises a sorting mechanism, a medicine bottle, a blanking control mechanism and a blanking pipe;

the sorting mechanism comprises a cylinder body, a bottom plate, a top plate, a rotating shaft, a sweeping disc and a stepping motor A; the cylinder body is in a round tube shape with two open ends; the bottom plate is fixedly connected with an opening at the lower end of the cylinder body, and a discharge hole is formed in the bottom plate; the top plate is fixedly connected with the opening at the upper end of the barrel body, a feeding hole is formed in the top plate, and the feeding hole and the discharging hole are arranged in a staggered mode; the upper end and the lower end of the rotating shaft are respectively movably arranged on the top plate and the bottom plate; the sweeping disc comprises a central sleeve and a plurality of sweeping arms fixedly connected to the central sleeve, the sweeping disc is fixedly arranged on the rotating shaft through the central sleeve and is positioned in the cylinder body, and two adjacent sweeping arms of the sweeping disc and the bottom plate surround to form a fan-shaped material storage interval; the stepping motor A is fixedly arranged at the upper end of the top plate, and a machine shaft of the stepping motor A is connected with the upper end head of the rotating shaft through a coupler;

the medicine bottle comprises a bottle body, a bottle cap and a gear A; an inner cavity for containing traditional Chinese medicine formula particles is arranged in the bottle body, a bottle opening is arranged at the end part of the bottle body, and a butt joint hole A is arranged on the outer wall of the bottle body; the bottle cap is provided with a discharge port A, the bottle cap is detachably arranged at the bottle mouth of the bottle body and surrounds the bottle body to form an installation cavity, and the installation cavity is communicated to the outside of the bottle body through the butt joint hole A; the gear A is provided with a discharge port B, the gear A can be rotatably arranged in the mounting cavity, and part of teeth of the gear A are displayed through the butt joint hole A; when the gear A rotates to enable the discharge port B to be opposite to the discharge port A, the inner cavity of the bottle body is communicated with the outside, and when the gear A rotates to enable the discharge port B to be staggered with the discharge port A, the inner cavity of the bottle body is not communicated with the outside;

the blanking control mechanism comprises a stepping motor B, a bracket and a gear B; the stepping motor B is fixedly arranged on the top plate through a bracket; the gear B is fixedly arranged on a crankshaft of the stepping motor B and is meshed with the gear A through the butt joint hole A;

the discharge pipe is arranged between the medicine bottle and the sorting mechanism, the upper end of the discharge pipe is communicated with a discharge port A of the medicine bottle, the lower end of the discharge pipe is communicated with a feeding hole of the sorting mechanism, and a butt joint hole B corresponding to the butt joint hole A is arranged on the pipe wall of the discharge pipe.

The utility model discloses further technical scheme is: the blanking control mechanism also comprises a laser sensor; the laser sensor comprises a laser receiving module and a laser emitting module, the laser emitting module is fixedly mounted on the stepping motor B, the laser receiving module is fixedly mounted on the lower surface of the gear B and staggered or right opposite to the laser emitting module along with the rotation of the gear B, and when the gear B rotates to be right opposite to the laser receiving module and the laser emitting module, the discharge hole B in the gear A is right opposite to the discharge hole A in the bottle cover.

The utility model discloses still further technical scheme is: the sorting mechanism also comprises a Hall proximity sensor and a magnetic steel block; the Hall proximity sensor is embedded on the inner wall of the cylinder; the magnetic steel block is embedded on the outer thickness surface of the sweeping arm and staggered or opposite to the Hall proximity sensor along with the rotation of the sweeping arm, and when the sweeping arm rotates to the Hall proximity sensor and the magnetic steel are opposite to each other, the discharge hole and the feeding hole are completely accommodated in two different material storage intervals respectively.

The utility model discloses a further technical scheme is: the thickness surface at the lower end of the sweeping arm and the thickness surface at the outer side of the sweeping arm are both in arc transition.

The utility model discloses a further technical scheme is: the discharge hole of the bottom plate is matched with the transverse section of the material storage section in shape.

The utility model discloses a further technical scheme is: the number of the sweeping arms is seven, the seven sweeping arms are uniformly distributed on the outer wall of the central sleeve in a radial annular mode, and correspondingly, the number of the material storage intervals is seven.

The utility model discloses a further technical scheme is: it also includes a controller; and a signal input port of the controller is respectively and electrically connected with the Hall proximity sensor and the laser sensor, and a signal output port of the controller is respectively and electrically connected with the stepping motor A and the stepping motor B.

Compared with the prior art, the utility model have following advantage:

1. the Chinese medicine dispensing system is applied to the Chinese medicine intelligent dispensing system, and can realize quantitative sorting of Chinese medicine formula granules as an important component of the Chinese medicine intelligent dispensing system. Through controlling the opening duration of the medicine bottle, a certain amount of traditional Chinese medicine formula particles (generally the total dosage of a medicine) are discharged from the medicine bottle, meanwhile, the rotation of the sweeping disc is matched, the traditional Chinese medicine formula particles are divided into a plurality of parts and input into different material storage intervals, along with the rotation of the sweeping disc, the traditional Chinese medicine formula particles in each material storage interval are sequentially swept into the discharge holes of the bottom plate and are discharged in batches through the discharge holes of the bottom plate to enter a subsequent device related to the intelligent traditional Chinese medicine dispensing system.

2. Through the cooperation of the Hall proximity sensor and the magnetic steel block, the accurate positioning of the rotating position of the sweeping disc can be realized, and the reliability of the distribution process of the traditional Chinese medicine formula particles is further ensured.

3. Accurate positioning of the rotation position of the gear A in the medicine bottle can be achieved through the laser sensor, and therefore consistency of opening degree of opening of the medicine bottle at each time is guaranteed. On the premise that the opening size of the medicine bottle is fixed, the medicine discharging amount of the medicine bottle in unit time is also fixed, the medicine discharging amount can be accurately calculated according to the opening time of the medicine bottle, and therefore the feasibility of controlling the medicine discharging amount of the medicine bottle according to the opening time of the medicine bottle is ensured.

The invention is further described below with reference to the figures and examples.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a cross-sectional view A-A of FIG. 1;

FIG. 3 is an enlarged view of portion B of FIG. 1;

FIG. 4 is a schematic structural view of a base plate;

FIG. 5 is a schematic view of the top plate;

FIG. 6 is a bottom view of FIG. 5;

FIG. 7 is a schematic view of the structure of a vial;

FIG. 8 is a cross-sectional view C-C of FIG. 7;

FIG. 9 is an exploded view of a vial;

fig. 10 is a schematic diagram of an electrical connection relationship between the components of the present invention.

Illustration of the drawings: a cylinder 11; a base plate 12; a discharge hole 121; a top plate 13; a feeding hole 131; a rotating shaft 14; a sweeping disk 15; a hall proximity sensor 17; a magnetic steel block 18; a center sleeve 151; a sweep arm 152; a stepper motor a 16; a bottle body 21; an inner cavity 211; a mouth 212; a docking hole A213; a mounting cavity 214; a bottle cap 22; a discharge opening A221; gear a 23; a discharge opening B231; a stepping motor B31; a bracket 32; gear B33; a laser sensor 34; a laser receiving module 341; a laser emission module 342; a feeding pipe 4; docking hole B41; a material storage interval 5; and a controller 6.

Detailed Description

Example 1:

as shown in fig. 1-10, the device for quantitatively sorting Chinese medicine prescription particles comprises a sorting mechanism, a medicine bottle, a blanking control mechanism and a blanking tube 4.

The sorting mechanism comprises a cylinder body 11, a bottom plate 12, a top plate 13, a rotating shaft 14, a sweeping disc 15 and a stepping motor A16. The cylinder 11 is in a shape of a circular tube with two open ends. The bottom plate 12 is fixedly connected to the open lower end of the cylinder 11, and is provided with a discharge hole 121. The top plate 13 is fixedly connected to the open top of the barrel 11, and is provided with a feeding hole 131, and the feeding hole 131 and the discharging hole 121 are arranged in a staggered manner. The upper end and the lower end of the rotating shaft 14 are respectively movably arranged on the top plate 13 and the bottom plate 12. The sweeping disk 15 comprises a central sleeve 151 and a plurality of sweeping arms 152 fixedly connected to the central sleeve 151, the sweeping disk 15 is fixedly mounted on the rotating shaft 14 through the central sleeve 151 and is located inside the cylinder 11, and two adjacent sweeping arms 152 of the sweeping disk 15 and the bottom plate 12 surround to form a sector material storage section 5. The stepping motor A16 is fixedly arranged at the upper end of the top plate 13, and the crankshaft of the stepping motor A16 is connected with the upper end head of the rotating shaft 14 through a coupler.

The medicine bottle comprises a bottle body 21, a bottle cap 22 and a gear A23. The interior of the bottle body 21 is provided with an inner cavity 211 for containing the traditional Chinese medicine formula particles, the end of the bottle body 21 is provided with a bottle mouth 212, and the outer wall of the bottle body 21 is provided with a butt joint hole A213. The bottle cap 22 is provided with a discharge opening a221, the bottle cap 22 is detachably mounted at a bottle opening 212 of the bottle body 21 (which can be in plug-in connection or threaded connection), and forms a mounting cavity 214 with the bottle body 21 (the mounting cavity 214 is formed by surrounding a wall surface of an inner cavity 211 of the bottle body 21, a step surface in the inner cavity 211 of the bottle body 21, and a side surface of the bottle cap 22 facing the inner cavity 211 of the bottle body 21), and the mounting cavity 214 is communicated to the outside of the bottle body 21 through a butt-joint hole a 213. The gear a23 is provided with a discharge opening B231 (the discharge opening B231 penetrates both side surfaces of the gear a 23), and the gear a23 is rotatably mounted in the mounting chamber 214 with a part of teeth thereof exposed through the abutment hole a 213. When the gear A23 rotates to make the discharge opening B231 face the discharge opening A221, the cavity 211 of the bottle body 21 is communicated with the outside, and when the gear A23 rotates to make the discharge opening B231 be staggered with the discharge opening A221, the cavity 211 of the bottle body 21 is not communicated with the outside.

The blanking control mechanism comprises a stepping motor B31, a bracket 32 and a gear B33. The stepping motor B31 is fixedly mounted on the top plate 13 through the bracket 32. Gear B33 is fixedly mounted on the crankshaft of stepper motor B31 and engages gear a23 through docking aperture a 213.

The discharge tube 4 is arranged between the medicine bottle and the sorting mechanism, the upper end of the discharge tube is communicated with a discharge port A211 of the medicine bottle, the lower end of the discharge tube is communicated with a feed hole 131 of the sorting mechanism, and a butt joint hole B41 corresponding to the butt joint hole A213 is arranged on the tube wall of the discharge tube.

Preferably, the number of the sweeping arms 152 is seven, the seven sweeping arms 152 are uniformly distributed on the outer wall of the central sleeve 151 in a radial ring shape, and correspondingly, the number of the material storage sections 5 is seven. If the number of the sweep arms 152 is too large, the volume of the single material storage section 5 is correspondingly reduced, which may not meet the requirement of the amount of stored medicine, and if the number of the sweep arms 152 is too small, the volume of the single material storage section 5 is correspondingly increased, which may cause waste of the internal space of the cylinder 11.

Preferably, the thickness surface of the lower end of the sweeping arm 152 and the thickness surface of the outer side (the side of the sweeping arm 152 relatively far away from the central sleeve 151 is defined as the outer side) are in arc transition, so that the problem that the sweeping arm 152 is severely scratched on the upper surface of the bottom plate 12 and the inner wall of the sweeping arm 152 and the inner wall of the cylinder 11 to cause unsmooth movement when the sweeping disk 15 rotates is prevented.

Preferably, the discharge opening 121 of the bottom plate 12 is matched with the transverse cross-sectional shape of the material storage section 5.

Preferably, the blanking control mechanism further includes a laser sensor 34. The laser sensor 34 comprises a laser receiving module 341 and a laser emitting module 342, the laser emitting module 342 is fixedly mounted on a stepping motor B31, the laser receiving module 341 is fixedly mounted on the lower surface of a gear B33 and is staggered or opposite to the laser emitting module 342 along with the rotation of the gear B33, and when the gear B33 rotates to the state that the laser receiving module 341 and the laser emitting module 342 are opposite to each other, a discharge port B231 on the gear a23 is opposite to a discharge port a221 on the bottle cap 22.

Preferably, the sorting mechanism further comprises a hall proximity sensor 17 and a magnetic steel block 18. The Hall proximity sensor 17 is embedded on the inner wall of the cylinder 11. The magnetic steel block 18 is embedded on the outer thickness surface of each sweeping arm 152, and staggers or faces to the Hall proximity sensor 17 along with the rotation of the sweeping arm 152, when the sweeping arm 152 rotates to the state that the magnetic steel 18 and the Hall proximity sensor 17 face to each other, the discharge hole 121 and the feeding hole 131 are respectively and completely accommodated in two different material storage sections 5.

Preferably, it further comprises a controller 6. The controller 6 is a programmable single chip microcomputer with the model of STM32F103ZET 6. The signal input port of the controller 6 is electrically connected with the hall proximity sensor 17 and the laser sensor 34 respectively, and the signal output port of the controller 6 is electrically connected with the stepping motor a16 and the stepping motor B31 respectively, so as to control the start and stop of the stepping motor a16 and the stepping motor B31.

Brief description the utility model discloses a working process:

the quantitative sorting device for the traditional Chinese medicine formula particles can realize quantitative sorting of the traditional Chinese medicine formula particles, and before sorting operation, the quantitative sorting device for the traditional Chinese medicine formula particles is in an initial state, and in the initial state:

a. the medicine bottle is in a closed state, namely the discharge opening B231 of the medicine bottle is staggered with the discharge opening A221;

b. the sweeping disk 15 rotates until the magnetic steel 18 is opposite to the Hall proximity sensor 17.

The operation is as follows:

1. the bottle containing the traditional Chinese medicine formula particles is downwards inserted into the upper end pipe orifice of the discharging pipe 4.

2. The stepping motor B31 is started to drive the gear A23 to rotate, and when the gear A23 rotates until the laser receiving module 341 and the laser emitting module 342 face each other, the stepping motor B31 is closed; at the moment, the discharge opening B231 is opposite to the discharge opening A221, the medicine bottle is opened, and the traditional Chinese medicine formula particles in the medicine bottle are discharged out of the medicine bottle through the discharge opening A221 and then enter the material storage section 5 through the discharge pipe 4 and the top plate 13; the medicine bottle is opened for a certain time, after the required medicine amount is discharged, the stepping motor B31 is started, the driving gear A23 rotates and returns to the initial position, and the medicine bottle is closed.

In the step, on the premise that the opening degree of the medicine bottle is fixed, the medicine discharging amount of the medicine bottle in unit time is also fixed, and the medicine discharging amount can be accurately controlled according to the opening time of the medicine bottle.

3. Starting timing when the medicine bottle is opened, and starting the stepping motor A16 to drive the sweeping disk 15 to rotate for an angle every fixed time interval; on one hand, each material storage section 5 can receive a certain amount of traditional Chinese medicine formula particles, on the other hand, all the material storage sections 5 are sequentially communicated with the discharge holes 121 of the bottom plate 12, and the traditional Chinese medicine formula particles are distributed and discharged, so that the quantitative sorting of the traditional Chinese medicine formula particles is realized.

In this step, when the sweeping disk 15 rotates until the magnetic steel 18 and the hall proximity sensor 17 are aligned with each other, that means the sweeping disk 15 rotates to reach a predetermined position, the stepping motor a16 is triggered to turn off.

In this step, in the time interval, the storage interval 5 can receive a day of Chinese medicinal granule.

Claims

1. Traditional chinese medicine prescription granule ration sorting device, characterized by: comprises a sorting mechanism, a medicine bottle, a blanking control mechanism and a blanking pipe;

2. The quantitative sorting device for the traditional Chinese medicine formula granules as claimed in claim 1, wherein: the blanking control mechanism also comprises a laser sensor; the laser sensor comprises a laser receiving module and a laser emitting module, the laser emitting module is fixedly mounted on the stepping motor B, the laser receiving module is fixedly mounted on the lower surface of the gear B and staggered or right opposite to the laser emitting module along with the rotation of the gear B, and when the gear B rotates to be right opposite to the laser receiving module and the laser emitting module, the discharge hole B in the gear A is right opposite to the discharge hole A in the bottle cover.

3. The quantitative sorting device for the traditional Chinese medicine formula granules as claimed in claim 1 or 2, wherein: the sorting mechanism also comprises a Hall proximity sensor and a magnetic steel block; the Hall proximity sensor is embedded on the inner wall of the cylinder; the magnetic steel block is embedded on the outer thickness surface of the sweeping arm and staggered or opposite to the Hall proximity sensor along with the rotation of the sweeping arm, and when the sweeping arm rotates to the Hall proximity sensor and the magnetic steel are opposite to each other, the discharge hole and the feeding hole are completely accommodated in two different material storage intervals respectively.

4. The quantitative sorting device for the traditional Chinese medicine formula granules as claimed in claim 3, wherein: the thickness surface at the lower end of the sweeping arm and the thickness surface at the outer side of the sweeping arm are both in arc transition.

5. The quantitative sorting device for the traditional Chinese medicine formula granules as claimed in claim 4, wherein: the discharge hole of the bottom plate is matched with the transverse section of the material storage section in shape.

6. The quantitative sorting device for the traditional Chinese medicine formula granules as claimed in claim 5, wherein: the number of the sweeping arms is seven, the seven sweeping arms are uniformly distributed on the outer wall of the central sleeve in a radial annular mode, and correspondingly, the number of the material storage intervals is seven.

7. The quantitative sorting device for the traditional Chinese medicine formula granules as claimed in claim 6, wherein: it also includes a controller; and a signal input port of the controller is respectively and electrically connected with the Hall proximity sensor and the laser sensor, and a signal output port of the controller is respectively and electrically connected with the stepping motor A and the stepping motor B.