CN219167769U

CN219167769U - Filter equipment of flunarizine hydrochloride oral solution

Info

Publication number: CN219167769U
Application number: CN202320093601.6U
Authority: CN
Inventors: 李靖
Original assignee: Wuhan Tiantian Pharmaceutical Co ltd
Current assignee: Wuhan Tiantian Pharmaceutical Co ltd
Priority date: 2023-01-31
Filing date: 2023-01-31
Publication date: 2023-06-13
Anticipated expiration: 2033-01-31

Abstract

The utility model relates to the technical field of treatment of flunarizine hydrochloride oral solution, in particular to a filtering device of a flunarizine hydrochloride oral solution, which comprises a machine body, wherein the machine body is internally provided with: the first magnet and the second magnet are respectively sleeved in the second chute and the first chute in a sliding way; the first moving block and the second moving block are respectively and fixedly connected to the first magnet and the second magnet, and the first moving block and the second moving block are provided with storage cavities; the driving mechanism is used for driving the first moving block and the second moving block to dynamically filter; according to the utility model, the driving gear is respectively meshed with the first movable rack and the second movable rack for transmission, so that the first movable block and the second movable block respectively move in opposite directions or in opposite directions to drive the untreated raw materials to throw up and down and repeatedly contact with the activated carbon, and the raw materials are filtered, so that the defect of low manual filtration efficiency is overcome.

Description

Filter equipment of flunarizine hydrochloride oral solution

Technical Field

The utility model relates to the technical field of treatment of flunarizine hydrochloride oral solutions, in particular to a filtering device of a flunarizine hydrochloride oral solution.

Background

The utility model discloses a flunarizine hydrochloride and a preparation process thereof, which is disclosed by Chinese patent publication No. CN102579989B, and the process comprises the following raw materials by weight ratio, wherein the flunarizine hydrochloride comprises 0.7 part, 25 parts of red sage root, 20 parts of rhizoma sparganii, 18 parts of rhizoma zedoariae, 15 parts of rhizoma gastrodiae and 10 parts of glossy privet fruit, and the pharmaceutical excipients such as starch living edible cellulose are added according to a common pharmaceutical method to prepare capsules, tablets, granules and the like. The compound flunarizine hydrochloride pharmaceutical composition prepared by the process can treat both symptoms and root causes of epilepsy, is nontoxic and harmless to human bodies, has no side effect, is low in price and simple and convenient to prepare, has wide application prospect, but has the following problems in the use process:

when the flunarizine hydrochloride is refined, impurities in the crude flunarizine hydrochloride are required to be filtered to obtain the high-concentration flunarizine hydrochloride, but in the existing process, the flunarizine hydrochloride is mostly poured onto a filter screen for filtering by manpower, so that the efficiency is low during filtering, and the filtering requirement of large-batch flunarizine hydrochloride cannot be met.

Disclosure of Invention

The utility model aims to solve the problem of low efficiency of manually filtering flunarizine hydrochloride in the prior art, and provides a filtering device for an oral solution of flunarizine hydrochloride.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a filter equipment of flunarizine hydrochloride oral solution, includes the organism, be provided with in the organism:

the first cavity and the second cavity are both arranged in the machine body;

the first sliding groove and the second sliding groove are both arranged in the second cavity;

the first magnet and the second magnet are respectively sleeved in the second chute and the first chute in a sliding way;

the first moving block and the second moving block are respectively and fixedly connected to the first magnet and the second magnet, and are provided with storage cavities for storing activated carbon;

the movable ports are respectively arranged on the first movable block and the second movable block, the movable ports are used for throwing active carbon, the feeding pipe is fixedly connected to the second cavity, and the feeding pipe is used for throwing raw materials to be treated;

the placing pool is fixedly connected to the bottom end of the second cavity, the opening is arranged on the second cavity, and the opening is used for taking out raw materials filtered by the activated carbon;

the driving mechanism is arranged in the first cavity and is used for driving the first moving block and the second moving block to dynamically filter.

Preferably, through holes are formed in the first moving block and the second moving block, the through holes are communicated with the storage cavity, and the movable opening and the opening can be opened and closed.

Preferably, the driving mechanism includes:

the motor is fixedly arranged in the first cavity, the driving shaft is rotatably arranged in the first cavity, and the driving shaft is fixedly connected with the output end of the motor;

the driving gear is connected to the driving shaft in a key manner, and the third chute and the fourth chute are both arranged in the first cavity;

the third magnet and the fourth magnet are respectively sleeved in the third chute and the fourth chute in a sliding way, the third magnet corresponds to the first magnet, and the fourth magnet corresponds to the second magnet;

the first moving rack and the second moving rack are respectively connected with the third magnet and the fourth magnet, and are respectively connected with the driving gear in a meshed manner.

Preferably, the driving shaft is horizontally arranged in the first cavity, and the third chute and the fourth chute are vertically arranged in the first cavity.

Preferably, the third magnet and the first magnet are attracted by opposite poles, and the fourth magnet and the second magnet are attracted by opposite poles.

Preferably, the first moving rack and the second moving rack are respectively and fixedly connected with the third magnet and the fourth magnet, and the first moving rack and the second moving rack are respectively arranged in the positions on two sides of the driving gear.

Compared with the prior art, the utility model has the following advantages:

1. according to the utility model, the driving gear is respectively meshed with the first movable rack and the second movable rack for transmission, so that the first movable block and the second movable block respectively move in opposite directions or in opposite directions to drive the untreated raw materials to throw up and down and repeatedly contact with the activated carbon, and the raw materials are filtered, so that the defect of low manual filtration efficiency is overcome.

2. According to the utility model, the third magnet is attracted with the opposite poles of the first magnet, the fourth magnet is attracted with the opposite poles of the second magnet, and the first moving block and the second moving block are indirectly driven by the driving mechanism, so that raw material leakage caused by directly driving the first moving block and the second moving block is avoided.

Drawings

Fig. 1 is a schematic structural diagram of a filtering device for an oral solution of flunarizine hydrochloride according to the present utility model;

fig. 2 is a schematic front section view of a filtering device for an oral solution of flunarizine hydrochloride according to the present utility model;

FIG. 3 is an enlarged schematic view of the portion A of FIG. 2 according to the present utility model;

fig. 4 is a schematic right-cut view of a filtering device for an oral solution of flunarizine hydrochloride according to the present utility model;

fig. 5 is an enlarged schematic view of the part B of fig. 4 according to the present utility model.

In the figure: 1. a body; 2. a first cavity; 3. a second cavity; 4. a first chute; 5. a second chute; 6. a first magnet; 7. a second magnet; 8. a first moving block; 9. a second moving block; 10. a movable opening; 11. a feed pipe; 12. placing a pool; 13. an opening; 14. a motor; 15. a driving shaft; 16. a drive gear; 17. a third chute; 18. a fourth chute; 19. a third magnet; 20. a fourth magnet; 21. a first movable rack; 22. and a second movable rack.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1 to 5, a filtering device for an oral solution of flunarizine hydrochloride comprises a body 1, wherein the body 1 is provided with:

the first cavity 2 and the second cavity 3 are arranged in the machine body 1;

the first chute 4 and the second chute 5 are respectively arranged in the second cavity 3; the middle end positions of the first chute 4 and the second chute 5 are respectively provided with a stop block, so that the first moving block 8 and the second moving block 9 which move in opposite directions cannot block and offset, and the movement between the influence is avoided;

the first magnet 6 and the second magnet 7 are respectively sleeved in the second chute 5 and the first chute 4 in a sliding way;

the first moving block 8 and the second moving block 9 are respectively and fixedly connected to the first magnet 6 and the second magnet 7, the first moving block 8 and the second moving block 9 are respectively provided with a storage cavity, the storage cavities are used for storing activated carbon, raw materials can be decolorized by the activated carbon, and meanwhile, the raw materials are filtered;

the movable opening 10 and the feeding pipe 11 are respectively arranged on the first movable block 8 and the second movable block 9, activated carbon can be put in or taken out through the movable opening 10, the feeding pipe 11 is fixedly connected to the second cavity 3, and the feeding pipe 11 is used for putting raw materials to be treated;

the placing pool 12 and the opening 13, the placing pool 12 is fixedly connected to the bottom end of the second cavity 3, the placing pool 12 is used for placing the filtered raw materials, the opening 13 is arranged on the second cavity 3, and the opening 13 is used for taking out the raw materials filtered by the activated carbon;

the driving mechanism is arranged in the first cavity 2 and is used for driving the first moving block 8 and the second moving block 9 to dynamically filter.

Through holes are formed in the first moving block 8 and the second moving block 9, the through holes are communicated with the storage cavity, microporous filter membranes can be installed at the lower end through holes of the first moving block 8 and the second moving block 9, the filtering effect is further improved, and the movable opening 10 and the opening 13 can be opened and closed.

The driving mechanism includes:

the motor 14 can be a servo motor with the product model of MSME-152S1, the motor 14 is fixedly arranged in the first cavity 2, the driving shaft 15 is rotatably arranged in the first cavity 2, and the driving shaft 15 is fixedly connected with the output end of the motor 14;

the driving gear 16, the third chute 17 and the fourth chute 18, the driving gear 16 is connected to the driving shaft 15 in a key way, and the third chute 17 and the fourth chute 18 are both arranged in the first cavity 2;

a third magnet 19 and a fourth magnet 20, wherein the third magnet 19 and the fourth magnet 20 are respectively sleeved in the third chute 17 and the fourth chute 18 in a sliding way, the third magnet 19 corresponds to the first magnet 6, and the fourth magnet 20 corresponds to the second magnet 7;

the first movable rack 21 and the second movable rack 22 are respectively connected with the third magnet 19 and the fourth magnet 20, and the first movable rack 21 and the second movable rack 22 are respectively meshed with the driving gear 16 by controlling the motor 14 to rotate positively and negatively and respectively, so that the first movable rack 21 and the second movable rack 22 are driven to move oppositely or reversely.

The driving shaft 15 is horizontally arranged in the first cavity 2, and the third chute 17 and the fourth chute 18 are vertically arranged in the first cavity 2.

The third magnet 19 and the first magnet 6 are attracted by different poles, the fourth magnet 20 and the second magnet 7 are attracted by different poles, and the first moving block 8 and the second moving block 9 are indirectly driven to move, so that double dynamic filtration is carried out on raw materials, and the defect of low manual filtration efficiency is overcome.

The first moving rack 21 and the second moving rack 22 are fixedly connected with the third magnet 19 and the fourth magnet 20, respectively, and the first moving rack 21 and the second moving rack 22 are disposed in both side positions of the driving gear 16, respectively.

The utility model can explain its functional principle by the following modes of operation:

the raw materials which are not processed are put into the second cavity 3 from the feeding pipe 11, the raw materials which are not processed fall onto the first moving block 8, the motor 14 is started, the output end of the motor 14 drives the driving shaft 15 to rotate, the driving shaft 15 drives the driving gear 16 to rotate, the driving gear 16 is respectively meshed with the first moving rack 21 and the second moving rack 22 for transmission, and the first moving rack 21 and the second moving rack 22 respectively move oppositely or reversely through the forward and reverse rotation of the driving motor 14;

the first moving rack 21 and the second moving rack 22 respectively drive the third magnet 19 and the fourth magnet 20 to move, so that the third magnet 19 and the fourth magnet 20 respectively slide in the third chute 17 and the fourth chute 18, meanwhile, the third magnet 19 and the first magnet 6 are attracted by opposite poles, the fourth magnet 20 and the second magnet 7 are attracted by opposite poles, and further the first moving block 8 and the second moving block 9 are driven to move in opposite directions or in opposite directions respectively;

untreated raw materials enter the storage cavity through the through hole of the first moving block 8 and are in contact with activated carbon in the storage cavity, the untreated raw materials are filtered by the activated carbon, the first moving block 8 moving up and down drives the untreated raw materials to throw up and down, the raw materials are enabled to be in repeated contact with the activated carbon, meanwhile, the raw materials are thrown into the second moving block 9 for next filtration, and the filtered raw materials fall into the placement pool 12 for storage, so that the raw materials can be treated in the next step.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims

1. The utility model provides a filter equipment of flunarizine hydrochloride oral solution, includes organism (1), its characterized in that, be provided with in organism (1):

the device comprises a first cavity (2) and a second cavity (3), wherein the first cavity (2) and the second cavity (3) are both arranged in a machine body (1);

the first sliding groove (4) and the second sliding groove (5), and the first sliding groove (4) and the second sliding groove (5) are both arranged in the second cavity (3);

the first magnet (6) and the second magnet (7) are respectively sleeved in the second chute (5) and the first chute (4) in a sliding way;

the device comprises a first moving block (8) and a second moving block (9), wherein the first moving block (8) and the second moving block (9) are respectively and fixedly connected to a first magnet (6) and a second magnet (7), storage cavities are formed in the first moving block (8) and the second moving block (9), and the storage cavities are used for storing activated carbon;

the device comprises a movable opening (10) and a feeding pipe (11), wherein the movable opening (10) is formed in a first moving block (8) and a second moving block (9), the movable opening (10) is used for throwing active carbon, the feeding pipe (11) is fixedly connected to a second cavity (3), and the feeding pipe (11) is used for throwing raw materials to be treated;

the device comprises a placement tank (12) and an opening (13), wherein the placement tank (12) is fixedly connected to the bottom end of a second cavity (3), the opening (13) is formed in the second cavity (3), and the opening (13) is used for taking out raw materials filtered by active carbon;

the driving mechanism is arranged in the first cavity (2) and is used for driving the first moving block (8) and the second moving block (9) to dynamically filter.

2. The filtering device for the flunarizine hydrochloride oral solution according to claim 1, wherein the first moving block (8) and the second moving block (9) are respectively provided with a through hole, the through holes are communicated with the storage cavity, and the movable opening (10) and the opening (13) are both opened and closed.

3. The filtering device for an oral solution of flunarizine hydrochloride as claimed in claim 1, wherein the driving mechanism comprises:

the motor (14) is fixedly arranged in the first cavity (2), the driving shaft (15) is rotatably arranged in the first cavity (2), and the driving shaft (15) is fixedly connected with the output end of the motor (14);

the driving gear (16), the third sliding chute (17) and the fourth sliding chute (18), wherein the driving gear (16) is connected to the driving shaft (15) in a key way, and the third sliding chute (17) and the fourth sliding chute (18) are both arranged in the first cavity (2);

the third magnet (19) and the fourth magnet (20), wherein the third magnet (19) and the fourth magnet (20) are respectively sleeved in the third chute (17) and the fourth chute (18) in a sliding way, the third magnet (19) corresponds to the first magnet (6), and the fourth magnet (20) corresponds to the second magnet (7);

the first movable rack (21) and the second movable rack (22), the first movable rack (21) and the second movable rack (22) are respectively connected with the third magnet (19) and the fourth magnet (20), and the first movable rack (21) and the second movable rack (22) are respectively meshed with the driving gear (16).

4. A filtering device for an oral solution of flunarizine hydrochloride according to claim 3, characterized in that the driving shaft (15) is horizontally arranged in the first cavity (2), and the third chute (17) and the fourth chute (18) are vertically arranged in the first cavity (2).

5. A filter device for an oral solution of flunarizine hydrochloride according to claim 3, wherein the third magnet (19) is attracted to the first magnet (6) by a different pole, and the fourth magnet (20) is attracted to the second magnet (7) by a different pole.

6. A filtering device for an oral solution of flunarizine hydrochloride according to claim 3, wherein the first movable rack (21) and the second movable rack (22) are fixedly connected with the third magnet (19) and the fourth magnet (20), respectively, and the first movable rack (21) and the second movable rack (22) are disposed in two side positions of the driving gear (16), respectively.