Sterile, sealed, shaking device

The design of the aseptic sealed shaking device solves the contamination problem of existing devices, realizes aseptic mixing and efficient stirring of the drug solution, and improves the quality of the drug solution and ease of use.

CN224404949UActive Publication Date: 2026-06-26乌兰察布医学高等专科学校

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
乌兰察布医学高等专科学校
Filing Date
2025-07-31
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Existing drug mixing devices are prone to contamination of the drug by outside air and dust due to their open design, which can affect the quality of drug mixing, especially in scenarios with high sterility requirements and special materials.

Method used

A sterile, sealed shaking device was designed, which uses a combination of high borosilicate glass, bottom cover, and top cover, along with a sealing ring and an adjustable motor-driven transmission gear system to achieve sealed mixing and self-rotation of the liquid medicine. Combined with stirring blades, the mixing efficiency is improved.

Benefits of technology

It achieves aseptic sealing of the drug solution mixing process, reduces the risk of external contamination, improves mixing efficiency and convenience, and ensures drug solution quality.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to medicine shaking device technical field, specifically disclose sterile sealed medicine shaking device, including control module bottom frame, bottom cover, the outer surface rotation of control module bottom frame is installed with installation gear ring, the inside fixed mounting of control module bottom frame has adjustable motor, the top of bottom cover is located control module bottom frame, the outer surface screw thread of bottom cover installs high boron glass, and high boron glass is away from the end screw thread of bottom cover and is installed with top cover, and top cover, bottom cover and high boron glass between the setting have sealing washer. This sterile sealed medicine shaking device, can first clean and disinfect high boron glass, bottom cover, top cover when using, can then hand hold antiskid rubber ring and with bottom cover and top cover respectively screwed into the outer surface of high boron glass, through the screwing of high boron glass, bottom cover, top cover guarantee the sealing property in the process of mixing liquid medicine, reduce the pollution caused by liquid medicine and external air dust contact.
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Description

Technical Field

[0001] This utility model relates to the technical field of shaking devices, specifically a sterile, sealed shaking device. Background Technology

[0002] In the fields of pharmaceuticals, biopharmaceuticals, clinical testing, and laboratory research, the homogeneity of the mixing of drug solutions, reagents, and biological samples directly affects product quality, the accuracy of experimental results, or therapeutic effects. For example, if there is precipitation or uneven concentration of components in an injection solution, it may lead to dosage errors. If the suspension system of biological agents (such as vaccines and monoclonal antibody drugs) is not mixed sufficiently, it will affect its biological activity. In laboratory cell culture or chemical reactions, the homogeneous mixing of samples and reagents is a prerequisite for ensuring the consistency of the reaction. Therefore, efficient and uniform shaking of materials is one of the basic operations in the above fields.

[0003] Existing shaking operations generally involve manual shaking or machine shaking. However, these devices have significant limitations when facing scenarios with high sterility requirements and special materials. Ordinary shaking devices are generally designed with open openings that lack sealing, which allows microorganisms from the outside air and dust to enter the container and contaminate the material, making them inconvenient to use. Utility Model Content

[0004] The purpose of this invention is to provide a sterile, sealed shaking device to solve the problem mentioned in the background art that existing shaking devices are mostly open designs that easily contaminate the medicine.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a sterile, sealed shaking device, comprising a control module bottom frame and a bottom cover. A mounting gear ring is rotatably mounted on the outer surface of the control module bottom frame. An adjustable motor is fixedly mounted inside the control module bottom frame, and the output end of the adjustable motor penetrates through the outer surface of the control module bottom frame. The bottom cover is located above the control module bottom frame, and a control module is provided on one side of the control module bottom frame. High borosilicate glass is threaded onto the outer surface of the bottom cover, and a top cover is threaded onto the end of the high borosilicate glass away from the bottom cover. A sealing ring is provided between the top cover, the bottom cover, and the high borosilicate glass.

[0006] Preferably, a rotating plug is rotatably mounted on the outer surface of one end of the mounting gear ring, a transmission gear is fixedly mounted on the output end of the adjustable motor and meshes with the mounting gear ring, an anti-slip rubber ring is fixedly mounted on the outer surface of the high borosilicate glass, and a plugging mechanism is provided between the rotating plug and the bottom cover.

[0007] Using the above technical solution, the rotation of the adjustable motor can drive the transmission gear to rotate, which in turn drives the mounting gear ring to rotate. This allows the borosilicate glass, bottom cover, and top cover mounted on the surface of the mounting gear ring to rotate together, thereby mixing the liquid medicine poured into the borosilicate glass, bottom cover, and top cover. Both the bottom cover and top cover are made of stainless steel.

[0008] Preferably, the insertion mechanism includes: an insertion barrel, a bearing is internally fitted into the insertion barrel and connected to the bottom cover, and the bottom cover and the insertion barrel are concentrically designed; the insertion barrel is inserted into a rotating insertion block and the rotating insertion block is engaged with the insertion barrel; a spring pin is slidably installed at the end of the mounting gear ring away from the rotating insertion block and is engaged with the mounting gear ring; the spring pin is inserted into a top cover and the top cover and the spring pin are rotatably connected.

[0009] By adopting the above technical solution, the bearings enable the plug-in barrel and the bottom cover to rotate more smoothly. The plug-in engagement between the plug-in barrel and the rotating plug-in block, along with the engagement between the spring pin and the top cover, makes it easier and more convenient to remove the high borosilicate glass, the bottom cover, and the top cover from the mounting gear ring.

[0010] Preferably, a transmission gear ring is fixedly installed on the outer surface of the bottom frame of the control module, and the transmission gear ring and the mounting gear ring are concentrically designed and rotatably connected. A rotating gear is fixedly installed on the outer surface of the rotating shaft of the bottom cover, and the rotating gear meshes with the transmission gear ring.

[0011] Using the above technical solution, when the gear ring rotates, it will drive the borosilicate glass, bottom cover, and top cover to move together. In conjunction with the meshing of the transmission gear ring and the rotating gear, the borosilicate glass, bottom cover, and top cover can rotate while moving, further improving the mixing effect of the medicine.

[0012] Preferably, a stirring blade is fixedly installed inside the bottom cover, and the stirring blade and the bottom cover are concentrically designed.

[0013] By adopting the above technical solution, the stirring blades can rotate synchronously through the self-rotation of the high borosilicate glass, bottom cover, and top cover, thereby further improving the mixing effect of the stirring blades on the medicine solution.

[0014] Preferably, a one-way valve is threaded onto the outer surface of the top cover, and a quick-connect plug is threaded onto the outer surface of the one-way valve.

[0015] Using the above technical solution, the liquid medicine can be delivered into the high borosilicate glass, bottom cover, and top cover through the quick-connect plug, and the quick-connect plug can be automatically sealed after being unplugged by the use of a one-way valve.

[0016] Preferably, a ball valve is threaded onto the outer surface of the bottom cover, and another quick-connect plug is threaded onto one end of the ball valve.

[0017] Using the above technical solution, after the medicine solution is mixed, the receiving pipe can be inserted into the quick connector, and then the ball valve can be opened to discharge the mixed medicine solution from the borosilicate glass, bottom cover, and top cover.

[0018] Compared with the prior art, the beneficial effects of this utility model are: the aseptic sealed shaking device:

[0019] 1. Before use, the borosilicate glass, bottom cover, and top cover should be cleaned and disinfected. Then, hold the non-slip rubber ring and screw the bottom cover and top cover into the outer surface of the borosilicate glass. The screwing of the borosilicate glass, bottom cover, and top cover ensures the sealing of the medicine during the mixing process. It also makes it easy to disassemble, clean, and disinfect the borosilicate glass, bottom cover, and top cover, reducing the pollution caused by the medicine coming into contact with external air dust and facilitating disinfection and cleaning.

[0020] 2. After the high borosilicate glass, bottom cover, and top cover are assembled, the liquid pipe can be inserted into the quick connector and the liquid can be injected. After the liquid is injected, the pipe can be pulled out and the one-way valve can be used to prevent the liquid from escaping. After the liquid is mixed, the high borosilicate glass, bottom cover, and top cover can be removed, and the discharge pipe can be inserted into another quick connector. Then the ball valve can be opened to release the liquid. This ensures that the liquid will not come into contact with the outside air during the flushing process, which greatly improves the quality of the liquid when it is mixed.

[0021] 3. After the liquid medicine is poured into the borosilicate glass, bottom cover, and top cover, the plug-in bucket can be inserted into the rotating plug-in block, and the spring pin can be pulled so that one end of the spring pin can be inserted into the top cover, so that the borosilicate glass, bottom cover, and top cover can be fixed on the surface of the mounting gear ring. Then, the adjustable motor can be controlled by the bottom frame of the control module to rotate, so that the transmission gear can drive the mounting gear ring to rotate, and the transmission gear ring can drive the rotating gear to rotate, so that the borosilicate glass, bottom cover, and top cover can rotate automatically during the movement, and the mixing quality and efficiency are improved by the stirring blade, which improves the efficiency and convenience of the liquid medicine mixing, and facilitates the installation and disassembly of the borosilicate glass, bottom cover, and top cover. Attached Figure Description

[0022] Figure 1 This is a schematic diagram of the three-dimensional structure of the bottom frame and high borosilicate glass of the control module of this utility model;

[0023] Figure 2 This is a three-dimensional structural diagram of the mounting gear ring and transmission gear ring of this utility model;

[0024] Figure 3This is an exploded three-dimensional structural diagram of the adjustable motor and transmission gear ring of this utility model;

[0025] Figure 4 This is an exploded three-dimensional structural diagram of the rotating plug-in block and plug-in barrel of this utility model;

[0026] Figure 5 This is a cross-sectional exploded perspective view of the bottom cover and the plug-in barrel of this utility model;

[0027] Figure 6 This is a cross-sectional exploded three-dimensional structural diagram of the bottom cover and top cover of this utility model.

[0028] In the diagram: 1. Control module bottom frame; 2. Mounting gear ring; 3. Adjustable motor; 4. Transmission gear; 5. Spring pin; 6. Rotating plug block; 7. High borosilicate glass; 8. Bottom cover; 9. Top cover; 10. Anti-slip rubber ring; 11. Plug barrel; 12. Bearing; 13. Transmission gear ring; 14. Rotating gear; 15. Check valve; 16. Ball valve; 17. Quick connector; 18. Agitator blade. Detailed Implementation

[0029] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0030] There are various types of drug shaking devices available, such as shakers and dissolving shakers, which are widely used in the pharmaceutical and biological fields. Shakers generally use a motor to drive a transmission device to transmit power to the clamping device, causing the bottle to shake or swing to mix and stir the liquid inside. Alternatively, a rotary shaker can rotate and vibrate on a horizontal surface, while a reciprocating shaker can mix the container by reciprocating the shaking on a horizontal surface. Other methods use components such as ultrasonic generators and vibration generators to accelerate the dissolution of drugs. However, these methods are generally open, and external air, dust, and bacteria can easily enter the container when mixing and stirring drugs.

[0031] Please see Figure 1-6This utility model provides a technical solution: a sterile sealed shaking device, including a control module bottom frame 1 and a bottom cover 8. A mounting gear ring 2 is rotatably installed on the outer surface of the control module bottom frame 1. An adjustable motor 3 is fixedly installed inside the control module bottom frame 1, and the output end of the adjustable motor 3 passes through the outer surface of the control module bottom frame 1. The bottom cover 8 is located above the control module bottom frame 1, and a control module is provided on one side of the control module bottom frame 1. High borosilicate glass 7 is threadedly installed on the outer surface of the bottom cover 8, and a top cover 9 is threadedly installed on the end of the high borosilicate glass 7 away from the bottom cover 8. A sealing ring is provided between the top cover 9, the bottom cover 8 and the high borosilicate glass 7.

[0032] First, the borosilicate glass 7, bottom cover 8, and top cover 9 need to be cleaned and disinfected before use. Then, the borosilicate glass 7, bottom cover 8, and top cover 9 can be assembled together and tightened. The use of anti-slip rubber rings 10 reduces the chance of slippage when tightening the borosilicate glass 7, bottom cover 8, and top cover 9. In conjunction with the use of sealing rings, the gaps between the borosilicate glass 7, bottom cover 8, and top cover 9 are sealed, which greatly improves the sealing performance and ease of use of the shaking device.

[0033] A rotating insertion block 6 is rotatably mounted on the outer surface of one end of the mounting gear ring 2. A transmission gear 4 is fixedly mounted on the output end of the adjustable motor 3, and the transmission gear 4 meshes with the mounting gear ring 2. An anti-slip rubber ring 10 is fixedly mounted on the outer surface of the high borosilicate glass 7. An insertion mechanism is provided between the rotating insertion block 6 and the bottom cover 8. The insertion mechanism includes: an insertion barrel 11, a bearing 12 is engaged inside the insertion barrel 11, and the bearing 12 is connected to the bottom cover 8. The bottom cover 8 and the insertion barrel 11 are concentrically designed. The insertion barrel 11 is inserted into the rotating insertion block 6, and the rotating insertion block 6 is engaged with the insertion barrel 11. A spring pin 5 is slidably mounted on the end of the mounting gear ring 2 away from the rotating insertion block 6, and the spring pin 5 is engaged with the mounting gear ring 2. The spring pin 5 is inserted into the top cover 9, and the top cover 9 and the spring pin 5 are rotatably connected.

[0034] Secondly, after assembling the borosilicate glass 7, bottom cover 8, and top cover 9, the liquid medicine can be fed into the interior of the borosilicate glass 7, bottom cover 8, and top cover 9. The plug-in barrel 11 is then inserted into the rotating plug-in block 6 and rotated. After that, the spring pin 5 is pulled so that one end of the spring pin 5 can be inserted into the top cover 9. Then, the adjustable motor 3 can be started and the speed can be adjusted through the control module so that the transmission gear 4 can drive the mounting gear ring 2 to rotate. The mounting gear ring 2 can rotate on the bottom frame 1 of the control module, so that the borosilicate glass 7, bottom cover 8, and top cover 9 can rotate together with the mounting gear ring 2. With the use of the bearing 12, the bottom cover 8 can rotate more smoothly, which is convenient for mixing the injected liquid medicine and can be easily removed to quickly replace another borosilicate glass 7, bottom cover 8, and top cover 9 for the next round of shaking. This greatly improves the convenience and efficiency of the shaking device.

[0035] A transmission gear ring 13 is fixedly installed on the outer surface of the bottom frame 1 of the control module, and the transmission gear ring 13 and the mounting gear ring 2 are concentrically designed. The mounting gear ring 2 and the transmission gear ring 13 are rotatably connected. A rotating gear 14 is fixedly installed on the outer surface of the rotating shaft of the bottom cover 8, and the rotating gear 14 meshes with the transmission gear ring 13. An stirring blade 18 is fixedly installed inside the bottom cover 8, and the stirring blade 18 and the bottom cover 8 are concentrically designed.

[0036] Furthermore, as the gear ring 2 rotates, it will drive the rotating gear 14 to move together, so that the rotating gear 14 can rotate through the transmission gear ring 13, allowing the high borosilicate glass 7, bottom cover 8, and top cover 9 to rotate. In conjunction with the use of the stirring blade 18, the shaking efficiency of the shaking device can be increased.

[0037] The outer surface of the top cover 9 is threaded with a one-way valve 15, and the outer surface of the one-way valve 15 is threaded with a quick-connect plug 17. The outer surface of the bottom cover 8 is threaded with a ball valve 16, and one end of the ball valve 16 is threaded with another quick-connect plug 17.

[0038] When the liquid medicine is poured into the borosilicate glass 7, bottom cover 8, and top cover 9, simply connect the pipe to the quick-connect plug 17 to pour the liquid medicine into the interior of the borosilicate glass 7, bottom cover 8, and top cover 9. After the liquid medicine is poured in, the pipe can be disconnected, and the one-way valve 15 can be used to prevent the liquid medicine from leaking out. After the liquid medicine is mixed, the borosilicate glass 7, bottom cover 8, and top cover 9 can be removed, and another quick-connect plug 17 can be inserted into the discharge pipe. Then, the ball valve 16 can be turned on to discharge the mixed liquid medicine, which greatly improves the sealing performance of the shaking device when pouring in and discharging liquid medicine.

[0039] Working principle: In use, simply connect the liquid medicine through the pipe to the quick-connect plug 17 to pour it into the borosilicate glass 7, bottom cover 8, and top cover 9. After disconnecting the pipe, the one-way valve 15 will automatically close to prevent the liquid medicine from leaking out. Then, insert the plug-in container 11 into the rotating plug block 6 and rotate it. Next, pull the spring pin 5 and insert it into the top cover 9. Then, the adjustable motor 3 can be rotated via the control module's bottom frame 1, causing the transmission gear 4 to rotate and drive the mounting gear ring 2 to rotate. With the use of the transmission gear ring 13, the rotating gear 14 and the bearing 12, the borosilicate glass 7, the bottom cover 8 and the top cover 9 can rotate on their own while moving. With the use of the stirring blade 18, the medicine injected into the borosilicate glass 7, the bottom cover 8 and the top cover 9 can be mixed more quickly and evenly. After the medicine is mixed evenly, the borosilicate glass 7, the bottom cover 8 and the top cover 9 can be removed. Then, the discharge pipe can be inserted into another quick connector 17 and the ball valve 16 can be turned off to discharge the mixed medicine outward, thus completing the mixing of the medicine.

[0040] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. Aseptic sealed medicine shaking device, comprising a control module bottom frame (1) and a bottom cover (8), an installation gear ring (2) is rotatably installed on the outer surface of the control module bottom frame (1), an adjustable motor (3) is fixedly installed in the control module bottom frame (1), and the output end of the adjustable motor (3) penetrates through the outer surface of the control module bottom frame (1), the bottom cover (8) is located above the control module bottom frame (1), and a control module is arranged on one side of the control module bottom frame (1), characterized in that: The outer surface of the bottom cover (8) is threaded with borosilicate glass (7), and the end of the borosilicate glass (7) away from the bottom cover (8) is threaded with a top cover (9), and a sealing ring is provided between the top cover (9), the bottom cover (8) and the borosilicate glass (7). ​ 2. The aseptically sealed pill shaker device of claim 1, wherein: A rotating plug-in block (6) is rotatably mounted on the outer surface of one end of the mounting gear ring (2). A transmission gear (4) is fixedly mounted on the output end of the adjustable motor (3), and the transmission gear (4) meshes with the mounting gear ring (2). An anti-slip rubber ring (10) is fixedly mounted on the outer surface of the high borosilicate glass (7). A plug-in mechanism is provided between the rotating plug-in block (6) and the bottom cover (8).

3. The aseptic sealed shaking device according to claim 2, characterized in that: The insertion mechanism includes: an insertion barrel (11), in which a bearing (12) is fitted and installed, and the bearing (12) is connected to the bottom cover (8), and the bottom cover (8) and the insertion barrel (11) are concentrically designed, the insertion barrel (11) is inserted into the rotating insertion block (6), and the rotating insertion block (6) is engaged with the insertion barrel (11), a spring pin (5) is slidably installed at the end of the mounting gear ring (2) away from the rotating insertion block (6), and the spring pin (5) is engaged with the mounting gear ring (2), the spring pin (5) is inserted into the top cover (9), and the top cover (9) and the spring pin (5) are rotatably connected.

4. The aseptic sealed shaking device according to claim 1, characterized in that: A transmission gear ring (13) is fixedly installed on the outer surface of the bottom frame (1) of the control module, and the transmission gear ring (13) and the mounting gear ring (2) are concentrically designed, and the mounting gear ring (2) and the transmission gear ring (13) are rotatably connected. A rotating gear (14) is fixedly installed on the outer surface of the rotating shaft of the bottom cover (8), and the rotating gear (14) meshes with the transmission gear ring (13).

5. The aseptic sealed shaking device according to claim 1, characterized in that: The bottom cover (8) is fixedly installed with a stirring blade (18), and the stirring blade (18) and the bottom cover (8) are concentrically designed.

6. The aseptic sealed shaking device according to claim 1, characterized in that: The outer surface of the top cover (9) is threaded with a one-way valve (15), and the outer surface of the one-way valve (15) is threaded with a quick-connect plug (17).

7. The aseptic sealed shaking device according to claim 1, characterized in that: A ball valve (16) is threaded onto the outer surface of the bottom cover (8), and another quick-connect plug (17) is threaded onto one end of the ball valve (16).