Experimental mobile intensive mixer

Abstract

This utility model discloses an experimental mobile high-power mixer, including a housing containing a drive mechanism, and a support platform connected to the housing. The support platform includes an inclined connecting shaft connecting the housing and the support platform, and a mixing structure within the support platform. The mixing structure includes a stirring drum within the support platform, a stirring rod within the stirring drum, and motors mounted on both the stirring drum and the stirring rod. This experimental mobile high-power mixer achieves thorough mixing and eliminates large particles by simultaneously stirring the material at high relative speeds of the stirring drum and stirring rod, while a cutter shreds the material. The maximum relative speed can reach 13,700 rpm through the counter-clockwise rotation of the stirring drum and the clockwise rotation of the stirring rod, providing a stable, efficient, and reliable mixing device.

Description

Technical Field

[0001] This utility model relates to the field of pharmaceutical machinery technology, specifically to an experimental mobile high-power mixer. Background Technology

[0002] With the continuous development of experimental pharmaceutical precision, pharmaceutical manufacturers have increasingly higher requirements for experimental mixers, especially in terms of achieving uniform mixing of multiple drugs, consistent drug mesh size, and no residual large particles during drug experiments. Currently, most pharmaceutical machinery manufacturers have not yet met the ideal requirements for experimental mixing. Utility Model Content

[0003] The purpose of this invention is to provide an experimental mobile high-power mixer to solve the problems mentioned in the background art.

[0004] To achieve the above objectives, this utility model provides the following technical solution: an experimental mobile high-power mixer, including a housing, wherein a driving mechanism is disposed within the housing, and further comprising:

[0005] A support platform connected to the housing, the support platform including an inclined connecting shaft disposed on the housing and the support platform for connecting the support platform;

[0006] A mixing structure is provided in the support platform. The mixing structure includes a stirring tank provided in the support platform, a stirring rod provided in the stirring tank, and a motor provided on both the stirring tank and the stirring rod.

[0007] Preferably, the support platform is further provided with an inclined locking buckle for locking the support platform.

[0008] Preferably, the top of the support platform is provided with at least two connecting platforms, and the connecting platforms are provided with connecting rods to connect all the connecting platforms. The connecting rods are provided with connecting parts, and the connecting parts are connected with fastening plates. The fastening plates are connected with the motor, and also have a feed port and an installation port.

[0009] Preferably, a funnel is inserted into the feed inlet, and a cutter included in the mixing structure is connected to the mounting port.

[0010] Preferably, the mixing structure further includes a connecting seat disposed on the support platform and connected to the mixing tank, and the outer side of the connecting seat is provided with a snap-fit ​​component.

[0011] Preferably, the bottom of the mixing tank is provided with a connecting shaft seat, and the connecting shaft seat is inserted into the connecting base.

[0012] Preferably, the housing is equipped with a control panel, and the bottom of the housing is equipped with casters.

[0013] Compared with the prior art, the beneficial effects of this utility model are:

[0014] This experimental mobile high-power mixer uses a mixing drum and a stirring rod to mix materials at relatively high speeds, while a cutter shreds the materials to meet the requirements of thorough mixing and no large particles remaining in the experimental mixer. By rotating the mixing drum counterclockwise and the stirring rod clockwise, a maximum relative speed of 13,700 rpm can be achieved, providing a stable, efficient and reliable mixing device.

[0015] This experimental mobile high-power mixer can also tilt and rotate the entire mixing structure to fully mix the materials and improve the mixing effect. Attached Figure Description

[0016] Figure 1 This is a side view of the structure of this utility model;

[0017] Figure 2 This is a top view of the structure of this utility model;

[0018] Figure 3 This is a schematic diagram of the upper part of the planed structure of this utility model;

[0019] Figure 4 These are side and top views of the connecting seat of this utility model.

[0020] Figure 5 This is a schematic diagram of the structure of the mixing tank of this utility model;

[0021] Figure 6 This is a schematic diagram of the structure of the cutter of this utility model;

[0022] Figure 7 This is a schematic diagram of the structure of the stirring rod of this utility model;

[0023] Figure 8 This is a schematic diagram of the structure of the funnel of this utility model.

[0024] In the diagram: 1. Box body; 11. Control panel; 12. Casters; 2. Support platform; 21. Inclined connecting shaft; 22. Inclined latch; 31. Connecting platform; 32. Connecting rod; 33. Connecting piece; 34. Fastening plate; 341. Motor; 342. Feed inlet; 343. Mounting port; 4. Mixing structure; 41. Connecting seat; 411. Snap-fit ​​piece; 42. Mixing tank; 421. Connecting shaft seat; 43. Mixing rod; 44. Cutter; 5. Funnel. Detailed Implementation

[0025] 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.

[0026] Please see Figure 1-8 This utility model provides a technical solution: an experimental mobile high-power mixer, including a housing 1, in which a drive mechanism is installed. The drive mechanism is used to drive the device to operate, mainly for controlling the start and stop of the motor 341, and providing a certain amount of power to the motor 341. It can also control the rotation efficiency of the motor 341 according to the material to be mixed. It includes a support platform 2 connected to the housing 1. The support platform 2 can rotate under the drive of an inclined connecting shaft 21, and the mixing structure 4 connected to it rotates together. The support platform 2 includes components on the housing 1 and the support platform 2 for carrying the mixing structure 4. The inclined connecting shaft 21 is connected to the platform 2; the mixing structure 4 is provided in the support platform 2, the mixing structure 4 includes a mixing tank 42 provided in the support platform 2, the mixing tank 42 is mainly used to load the materials to be mixed, the mixing tank 42 is provided with a stirring rod 43, the stirring rod 43 mixes and stirs the materials in the mixing tank 42, and both the mixing tank 42 and the stirring rod 43 are provided with motors 341. The motor 341 connected to the mixing tank 42 rotates counterclockwise, and the motor 341 on the stirring rod 43 rotates clockwise, so that a relative speed of up to 13700 rpm can be achieved, thereby efficiently mixing the materials.

[0027] The support platform 2 is also equipped with an inclined locking buckle 22 for locking the support platform 2. The inclined locking buckle 22 is used to lock the support platform 2 after it has rotated a certain angle, thereby fixing the support platform 2 at a specific angle. The rotation of the support platform 2 is achieved through an inclined connecting shaft 21, which connects the support platform 2 and the housing 1. The maximum rotation angle is 30°. The advantage of this design is that it can more fully mix the materials in the mixing tank 42, thereby ensuring that the materials at the edge of the mixing tank 42 are not left unaffected by the mixing tank 42 and the mixing rod 43, thus reducing the mixing effect. The top of the support platform 2 is equipped with at least two connecting platforms 31. The connecting platforms 31 are used to connect the fastening plate 34. The connecting platforms 31 are equipped with connecting rods 32 to connect all the connecting platforms 31. The connecting platforms 31 ensure that the fastening plate 34 can rotate. The connecting rods 32 are equipped with connecting parts 33, which are used to connect the fastening plate 34 and the connecting platforms 31, thereby ensuring that the fastening plate 34 can be connected to the connecting platforms. The device rotates on 31. When maintenance and cleaning are required, the fastening plate 34 can be easily lifted to clean and maintain the internal structure, including the mixing tank 42. The fastening plate 34 is connected to the connector 33, and the motor 341 is connected to the fastening plate 34. The fastening plate 34 is also used to connect the motor 341, which is used to connect to the stirring rod 43. The motor 341 connected to the mixing tank 42 is located in the housing 1, connected to the bottom of the mixing tank 42, and is also connected to the inlet 342 and the mounting port 343 for feeding. A funnel 5 is inserted into the inlet 342. When filling the material, the funnel 5 needs to be inserted into the inlet 342. Alternatively, the snap-fit ​​plate 34 can be opened directly to fill the mixing tank 42 with the material to be mixed. The installation port 343 is connected to the cutter 44, which is part of the mixing structure 4. The cutter 44 is used when the mixing tank 42 and the mixing rod 43 cannot thoroughly mix large particles. When the mixing tank 42 and the mixing rod 43 are started, some of the material will hit the cutter 44, thereby crushing the large particles.

[0028] The mixing structure 4 also includes a connecting seat 41 located on the support platform 2 and connected to the mixing tank 42. The connecting seat 41 is used to stabilize the mixing tank 42 and prevent the mixing tank 42 from tilting when rotating at high speed. If tilting occurs, the stirring rod 43 will strike the inner wall of the mixing tank 42, causing irreversible damage to the mixing tank 42. The outer side of the connecting seat 41 is provided with a snap-fit ​​member 411, which provides more comprehensive protection for the mixing tank 42. The bottom of the mixing tank 42 is provided with a connecting shaft seat 421, which is used to connect with the motor 341 connected in the housing 1 to ensure that the motor 341 can drive the mixing tank 42 to rotate. The connecting shaft seat 421 is inserted into the connecting seat 41, which strengthens the connection between the connecting seat 41 and the mixing tank 42. The housing 1 is provided with a control panel 11, which is used to control the entire device. The bottom of the housing 1 is provided with casters 12, which are used to move the entire device, thus giving the device better convenience.

[0029] In Example 1, the material can be poured in through the funnel 5 inserted into the inlet 342, or directly poured in after opening the snap-fit ​​plate 34. The control panel 11 starts the device, and the drive mechanism supplies power to the motor 341 and controls its speed. The material is loaded into the mixing tank 42, the bottom of which is connected to the motor 341 in the housing 1 through the connecting shaft seat 421, and begins to rotate under the drive of the motor 341. At the same time, the motor 341 on the stirring rod 43 also starts, and the stirring rod 43 rotates in the opposite direction to the mixing tank 42, achieving a maximum relative speed of 13,700 rpm. In this way, the material is fully mixed under the high-speed counter-stirring of the mixing tank 42 and the stirring rod 43.

[0030] In the second embodiment, the support platform 2 is connected to the housing 1 via an inclined connecting shaft 21. The control panel 11 issues a command to activate the drive mechanism, causing the inclined connecting shaft 21 to rotate. The support platform 2 rotates accordingly, with a maximum rotation angle of 30°. The mixing structure 4 also rotates with the support platform 2. When the support platform 2 rotates to a specific angle, the inclined locking buckle 22 on the support platform 2 locks it at that angle. This inclined design alters the material distribution within the mixing tank 42. Materials that might otherwise accumulate at the edges and be difficult to mix are now better acted upon by the mixing tank 42 and the stirring rod 43 due to the inclination, effectively preventing uneven mixing and greatly improving the thoroughness and uniformity of the material mixing.

[0031] In Example 3, when large particles are present in the material, the mixing tank 42 and the stirring rod 43 begin to operate, and the material moves within the tank under the influence of the mixing tank 42 and the stirring rod 43. The cutter 44, installed at the mounting port 343, is positioned along the material's movement path inside the mixing tank 42, and the high-speed moving material impacts the cutter 44. The cutter 44 crushes the large particles into smaller particles. These crushed smaller particles can participate more smoothly in the subsequent mixing process of the mixing tank 42 and the stirring rod 43, ensuring the overall uniformity of the mixture and preventing the presence of large particles from affecting the mixing quality.

[0032] In Example 4, when cleaning and maintenance of the mixer is required, the connecting rods 32 on the connecting platform 31 connect all the connecting platforms 31, and the connecting piece 33 connects the fastening plate 34 to the connecting platform 31. The fastening plate 34 can rotate around the connecting platform 31. Operators can easily lift the fastening plate 34 with simple operations, fully exposing the mixing tank 42 and other internal structures of the mixer. This allows for a thorough cleaning of residual materials inside the mixing tank 42, impurities attached to the cutter 44, and other internal structures. It also facilitates inspection of any damaged or abnormal components, enabling timely repair and maintenance, and effectively ensuring the continuous and efficient operation of the mixer.

[0033] 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. An experimental mobile high-power mixer, comprising a housing (1), wherein a driving mechanism is provided in the housing (1), characterized in that, Also includes: A support platform (2) connected to the housing (1) includes an inclined connecting shaft (21) provided on the housing (1) and the support platform (2) for connecting the support platform (2). A mixing structure (4) is provided in the support platform (2). The mixing structure (4) includes a stirring tank (42) provided in the support platform (2). A stirring rod (43) is provided in the stirring tank (42). A motor (341) is provided on both the stirring tank (42) and the stirring rod (43). The top of the support platform (2) is provided with at least two connecting platforms (31). The connecting platforms (31) are provided with connecting rods (32) to connect all the connecting platforms (31). The connecting rods (32) are provided with connectors (33). The connectors (33) are connected with fastening plates (34). The fastening plates (34) are connected with motors (341), and are also connected with inlet (342) and mounting port (343). A funnel (5) is inserted into the feed inlet (342), and a cutter (44) of the mixing structure (4) is connected to the mounting port (343).

2. The experimental mobile high-power mixer according to claim 1, characterized in that: The support platform (2) is also provided with an inclined latch (22) for locking the support platform (2).

3. The experimental mobile high-power mixer according to claim 1, characterized in that: The mixing structure (4) also includes a connecting seat (41) provided on the support platform (2) and connected to the mixing tank (42), and a snap-fit ​​member (411) is provided on the outside of the connecting seat (41).

4. The experimental mobile high-power mixer according to claim 3, characterized in that: The bottom of the mixing tank (42) is provided with a connecting shaft seat (421), which is inserted into the connecting seat (41).

5. The experimental mobile high-power mixer according to claim 1, characterized in that: The box (1) is equipped with a control panel (11) and the bottom of the box (1) is equipped with casters (12).

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