A portable dismountable medicine box for powder dissolving oscillator
The design of the easy-to-disassemble medicine box enables quick replacement and stable fixation of the medicine box and medicine tray of the powder dissolving shaker, solving the problem that the existing equipment cannot adapt to medicine bottles of different sizes, and improving the equipment utilization and dissolving efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- MIANYANG THIRD PEOPLES HOSPITAL
- Filing Date
- 2025-08-20
- Publication Date
- 2026-07-14
AI Technical Summary
The existing powder dissolving shaker has a fixed aperture for the medicine box, which cannot accommodate antibiotic vials of different sizes, resulting in low equipment utilization and increased operating costs.
A convenient disassembly medicine box was designed, which enables quick replacement of the medicine box and medicine tray through a disassembly mechanism. The fixing grooves with different hole diameters on the medicine tray can be switched freely as needed. Combined with the fixing structure of T-shaped slider and T-shaped groove, plug and square groove, the stability of the medicine tray during the vibration process is ensured.
It improves the applicability and utilization rate of the equipment, reduces the time cost of changing medicine trays, ensures the stability and accuracy of the powder dissolution process, meets the needs of medicine bottles of different sizes, and reduces equipment replacement costs.
Smart Images

Figure CN224485706U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of oscillator technology, specifically a convenient disassembly medicine box for a powder dissolving oscillator. Background Technology
[0002] In the daily work of the hospital's intravenous medication preparation center, preparing powdered medications is a crucial part of the entire preparation process. Preparation involves injecting solvent into the vial and then shaking it by hand to dissolve it. For poorly soluble medications, a shaker is required to ensure complete dissolution.
[0003] In the prior art, the aperture of the medicine box of the powder dissolving shaker is mostly fixed, so that the solvent and medicine in the medicine bottle of the same size can be dissolved.
[0004] However, antibiotic vials come in various sizes, especially when there are many large vials. Some shaker models only have three large holes, which limits their use. In addition, the medicine box and shaker are molded as one piece, making it impossible to freely switch between large and small vials for dissolving medicine. If different sizes of large vials are to be used, a shaker of the corresponding specification must be purchased separately, which not only increases the cost of use but also reduces the utilization rate of the equipment and makes it difficult to meet the needs of frequent medicine box replacement.
[0005] In light of this, we are introducing a convenient disassembly kit for powder dissolving shakers. Utility Model Content
[0006] The purpose of this invention is to provide a convenient disassembly box for a powder dissolving shaker, in order to solve the problems mentioned in the background art.
[0007] To achieve the above objectives, this utility model provides the following technical solution: a convenient disassembly medicine box for a powder dissolving shaker, comprising: a shaker housing;
[0008] A medicine box A is installed on the top of the shaker housing for storing powders that need to be dissolved. A medicine tray is detachably connected inside medicine box A. The surface of the medicine tray has evenly spaced fixing slots A for storing large bottles of powdered medicines that need to be dissolved. A disassembly mechanism is installed at each of the four corners of the top of medicine box A. The inverted L-shaped insert of the disassembly mechanism moves on the surface of the fixing post, causing the insert of the inverted L-shaped insert to disengage into the medicine tray, thereby releasing the fixation between medicine box A and the medicine tray. This facilitates the subsequent separation of medicine box A from the medicine tray and allows for easy replacement of fixing slots A with different apertures on the medicine tray. This design allows operators to quickly change to a suitable medicine tray according to the size of the large bottles of medicine, greatly improving the adaptability of the equipment to different experimental needs and reducing the time cost of replacing parts.
[0009] Preferably, the disassembly mechanism includes a limiting plate connected to the top of the fixing post. The fixing post is fixedly connected to the top four corners of the medicine box A. An inverted L-shaped plug slides on the surface of the fixing post. A spring is sleeved on the surface of the fixing post, located at the top of the inverted L-shaped plug and the bottom of the limiting plate. The plug is integrally connected to the bottom of the inverted L-shaped plug. The elasticity of the spring can always maintain the stable connection between the plug and the medicine box, avoiding loosening of the plug due to vibration during oscillation. It also makes the disassembly operation more labor-saving and convenient, and can be completed without the aid of additional tools.
[0010] Preferably, the medicine tray has square grooves at the four corners for inserting the connector; the shape of the square grooves matches the shape of the connector, which can accurately limit the position of the medicine tray, prevent the medicine tray from shifting or rotating during oscillation, and ensure that the large bottle of medicine is always in a stable oscillation environment.
[0011] Preferably, T-shaped sliders are detachably connected to both sides of the medicine tray, and a T-shaped groove for sliding the T-shaped sliders is provided on the side of the medicine box A. The sliding fit of the T-shaped structure not only provides guidance for the installation and removal of the medicine tray, but also can withstand a certain lateral force, preventing the medicine tray from accidentally sliding out of the medicine box A during vibration, thus enhancing the safety of the overall structure.
[0012] Preferably, the surface of the medicine tray is detachably connected to a handle; the handle is designed in accordance with ergonomic principles, making it easy for operators to hold and making it easier to pick up and put down the medicine tray, effectively reducing hand fatigue for operators, and the inner side of the handle is provided with anti-slip texture, making it easy for operators to grip.
[0013] Preferably, the bottom of the oscillator housing is equipped with a fixed foot for support; the fixed foot can increase the contact area between the device and the placement surface, improve the stability of the device, and at the same time reduce the friction and noise between the device and the placement surface during oscillation.
[0014] Preferably, the surface of the oscillator housing is equipped with a switch; there are two switches, one of which is convenient for controlling the speed of the device, and the other is convenient for controlling the opening and closing of the device. The operation is simple and intuitive, and it is suitable for users with different levels of operating proficiency.
[0015] Preferably, a mounting frame is connected to one side of the medicine box A, a plug-in block is inserted into the inside of the mounting frame, and a medicine box B is connected to the top of the plug-in block. Fixing grooves B are evenly spaced on the surface of the medicine box B, and a bolt is connected to the side of the mounting frame. One end of the bolt passes through the plug-in block and extends into the inside of the mounting frame.
[0016] Compared with the prior art, the beneficial effects of this utility model are:
[0017] (1) The installation and disassembly of the medicine tray are simple and easy to understand through the cooperation of the T-shaped slider and the T-shaped groove, and the insertion part and the square groove. No complicated tools and professional skills are required. In particular, the design of the disassembly mechanism can be used to release the insertion and fixation by simply pulling up the inverted L-shaped plug, which greatly shortens the time for changing the medicine tray and improves work efficiency. It is suitable for scenarios where the medicine tray needs to be changed frequently. The large-hole medicine tray can be replaced by the staff to replace the position of the small hole. After the large bottle medicine is prepared, it can be quickly removed to realize the free switching of the dissolving function of large / small bottle medicine, meet the requirements of different large bottle medicine sizes, expand the scope of application of the equipment, improve the utilization rate of the equipment, and eliminate the need to equip a shaker separately for large bottles of medicine of different specifications, thus reducing costs.
[0018] (2) The stability of the medicine tray during operation is ensured by multiple fixing structures. The cooperation between the T-shaped slider and the T-shaped groove restricts the horizontal displacement of the medicine tray. The insertion of the plug and the square groove further enhances the horizontal fixation. Even when the shaker is oscillating, the medicine tray will not loosen or shift, thus ensuring the stability and accuracy of the powder dissolution process.
[0019] (3) The handle on the surface of the medicine tray provides convenient gripping points for operators to install and remove the medicine tray, avoiding the pollution that may be caused by direct contact with the medicine tray, and making it easier to pull out the medicine tray.
[0020] (4) Through the precise matching of the mounting frame and the plug-in block and the reinforcement of the bolts, the medicine box B with the large-diameter fixing slot B and the medicine box A with the smaller-diameter fixing slot A are efficiently combined: On the one hand, the complementary structure of the plug-in block and the mounting frame can quickly complete the initial positioning, avoid the installation deviation caused by the size difference, and shorten the adjustment time in the early stage of assembly; on the other hand, the through tightening of the bolts can eliminate the plug gap, and through the tight engagement between the rod and the inner wall of the through hole, the medicine box A and the medicine box B are firmly locked into a whole. This design does not require structural modification of the two medicine boxes. Functional adaptation can be achieved only through modular connection components. It retains the flexibility when each is used independently, and can be quickly combined into a composite storage unit according to actual needs, meeting the needs of classifying and placing medicine containers with different apertures in the same operating scenario, and improving the scene adaptability and space utilization of the equipment. Attached Figure Description
[0021] Figure 1 This is a schematic diagram of the structure of this utility model;
[0022] Figure 2 This is a first-view structural schematic diagram of the oscillator housing and medicine box A of this utility model;
[0023] Figure 3 This is a top view of the structure of this utility model;
[0024] Figure 4 This is a structural schematic diagram of the oscillator housing and medicine box A from a second perspective of the present invention;
[0025] Figure 5 This is a schematic diagram of the structure of the medicine box A and the medicine tray of this utility model when disassembled;
[0026] Figure 6 This is a schematic diagram of the structure of the medicine box A, the fixing grooves A of different sizes, and the medicine tray when disassembled according to this utility model;
[0027] Figure 7 This is a top view of the structure of the large-sized fixing groove A of this utility model;
[0028] Figure 8 This is a structural diagram illustrating the different states of the inverted L-shaped insert block when disassembled according to this utility model;
[0029] Figure 9 This is a structural schematic diagram of Embodiment 2 of the present invention.
[0030] In the diagram: 1. Vibrator housing; 2. Fixing foot; 4. Switch; 5. Medicine box A; 6. Medicine tray; 7. Fixing groove A; 8. Handle; 9. T-shaped slider; 10. Fixing post; 11. Limiting plate; 12. Spring; 13. Inverted L-shaped plug; 15. T-shaped slide; 17. Square groove; 19. Plug-in part; 20. Mounting frame; 21. Plug-in block; 22. Bolt; 23. Medicine box B; 24. Fixing groove B. Detailed Implementation
[0031] 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.
[0032] In the description of this utility model, it should be noted that, unless otherwise explicitly specified and limited, the terms "installed", "equipped with", "sleeved with", "connected", etc., should be interpreted broadly. For example, "connection" can be a fixed connection, a detachable connection, or an integral connection; it can be a mechanical connection or an electrical connection; it can be a direct connection or an indirect connection through an intermediate medium; it can be a connection within two components. For those skilled in the art, the specific meaning of the above terms in this utility model can be understood according to the specific circumstances.
[0033] This device is an auxiliary preparation device in the intravenous medication preparation center. It is used in the biosafety cabinet where antibiotics are prepared. Due to limited space, it is mainly used to aid in the dissolution of powdered injections such as antibiotics. Example
[0034] Please see Figure 1-8 This utility model provides a technical solution: a convenient disassembly box for a powder dissolving shaker, comprising: a shaker housing 1 serving as the basic frame of the entire device, with fixed feet 2 installed at the bottom to provide stable support, ensuring that the device will not easily shake or shift during the shaking process, thus ensuring the safety and stability of operation; and switches 4 (two sets, one set controlling the speed and the other controlling the on and off) on the surface of the shaker housing 1, which facilitates the operator to control the start and end of the shaking process according to actual needs, and also facilitates the control of the shaking speed.
[0035] The medicine box A5 is installed on the top of the shaker housing 1 and is the core area for storing the powder to be dissolved. The medicine tray 6 inside is detachably connected and has fixing grooves A7 at equal intervals on its surface. These fixing grooves A7 are specifically designed to hold large bottles of medicine containing powder. The equidistant design ensures that the large bottles of medicine are subjected to uniform force during the shaking process, improving the efficiency and effect of powder dissolution. The handle 8 detachably connected to the surface of the medicine tray 6 provides convenience for the operator to take out and put in the medicine tray 6. Simply hold the handle 8 to easily take out or put in the medicine box A5, saving operation time.
[0036] To achieve a stable and easy-to-disassemble connection between the medicine tray 6 and the medicine box A5, T-shaped sliders 9 are detachably connected to both sides of the medicine tray 6, and corresponding T-shaped grooves 15 are provided on the side of the medicine box A5. The sliding engagement of the T-shaped sliders 9 and the T-shaped grooves 15 ensures that the medicine tray 6 is accurately installed in the medicine box A5, and also provides a guiding function for the disassembly of the medicine tray 6, making the disassembly process smoother.
[0037] The disassembly mechanism at the four corners of the top of the medicine box A5 is key to the rapid separation of the medicine box A5 from the medicine tray 6. In this mechanism, the fixing post 10 is fixedly connected to the four corners of the top of the medicine box A5. The limiting plate 11 connected to the top of the post 10 can limit the spring 12, preventing the spring 12 from detaching from the fixing post 10 during compression or extension. The inverted L-shaped plug 13 slides on the surface of the fixing post 10. The spring 12, which is sleeved on the surface of the fixing post 10, is located between the top of the inverted L-shaped plug 13 and the bottom of the limiting plate 11. When the inverted L-shaped plug 13 is subjected to downward pressure, the spring 12 will be compressed. When the pressure is removed, the spring 12 will return to its original shape due to its elasticity, driving the inverted L-shaped plug 13 back to its initial position. The plug part 19 integrally connected to the bottom of the inverted L-shaped plug 13 is connected to the medicine tray 6. The square slots 17 at the four corners of the medicine box A5 and the medicine tray 6 are designed to fit together. The insertion part 19 is inserted into the square slot 17 to further strengthen the fixation between the medicine box A5 and the medicine tray 6. When it is necessary to change the fixing slot A7 with a different hole diameter on the medicine tray 6, simply pull the inverted L-shaped plug 13 upward to move it upward on the surface of the fixing post 10. At this time, the spring 12 is compressed, and the insertion part 19 disengages from the square slot 17 of the medicine tray 6. Rotating the inverted L-shaped plug 13 releases the fixation between the medicine box A5 and the medicine tray 6, making it easy for the operator to quickly separate the medicine box A5 from the medicine tray 6. After replacing the medicine tray 6 with a suitable one, the inverted L-shaped plug 13 is released. Under the action of the spring 12, the insertion part 19 is reinserted into the square slot 17 of the new medicine tray 6 to complete the fixation. The whole process is convenient and can effectively improve work efficiency.
[0038] The convenient disassembly medicine box for the powder dissolving shaker works in tandem to facilitate the easy disassembly and fixation of the medicine tray 6. The specific working principle is as follows:
[0039] When installing the medicine tray 6 into the medicine box A5, first ensure that the T-shaped sliders 9 on both sides of the medicine tray 6 are aligned with the T-shaped grooves 15 on the side of the medicine box A5. The operator holds the handle 8 on the surface of the medicine tray 6 and accurately inserts the end of the T-shaped slider 9 into the entrance of the T-shaped groove 15. Then, push the medicine tray 6 smoothly along the extension direction of the T-shaped groove 15. At this time, the T-shaped slider 9 slides in a straight line in the T-shaped groove 15, which plays a guiding and initial limiting role, preventing the medicine tray 6 from deviating during the pushing process, until the medicine tray 6 is completely inserted into the medicine box A5 and the edge of the medicine tray 6 is in contact with the inner wall of the medicine box A5.
[0040] After the medicine tray 6 is placed in place, the disassembly mechanism at the four corners of the top of the medicine box A5 automatically begins to perform initial fixation. The fixing posts 10 in the disassembly mechanism are vertically fixed at the four corners of the top of the medicine box A5. The limiting plate 11 connected to the top of the fixing post 10 restricts the movement range of the inverted L-shaped insert 13, preventing the inverted L-shaped insert 13 from falling off the fixing post 10. (In the initial state, the inverted L-shaped insert 13 can rotate on the surface of the fixing post 10. The inverted L-shaped insert 13 and the insertion part 19 are located outside the medicine box A5 and do not contact the surface of the medicine tray 6.) Figure 8 As shown in the figure, after the inverted L-shaped plug 13 is rotated, pull the inverted L-shaped plug 13 upward while rotating it so that the inverted L-shaped plug 13 with the plug part 19 is above the medicine tray 6. At this time, the elastic force of the spring 12 acts downward on the inverted L-shaped plug 13, pushing the inverted L-shaped plug 13 to slide downward along the surface of the fixed post 10. The plug part 19, which is integrally connected to the bottom of the inverted L-shaped plug 13, moves down and is precisely inserted into the square grooves 17 opened at the four corners inside the medicine tray 6. At this time, the outer wall of the plug part 19 is tightly fitted with the inner wall of the square groove 17, completing the initial fixation between the medicine tray 6 and the medicine box A5, preventing the medicine tray 6 from moving in the horizontal direction.
[0041] When it is necessary to replace the medicine tray 6 to accommodate the fixing groove A7 with different apertures, the following steps should be followed for disassembly: The operator pulls the inverted L-shaped inserts 13 one by one by hand, so that a group of inverted L-shaped inserts 13 are subjected to an upward pulling force and slide upward along the surface of the fixing post 10. At the same time, the spring 12 sleeved on the surface of the fixing post 10 is compressed. The spring 12 is compressed, and its elastic potential energy gradually increases. As the inverted L-shaped inserts 13 move upward, the insertion part 19 at the bottom also moves upward and is gradually pulled out of the square groove 17 of the medicine tray 6 until the insertion part 19 is completely separated from the square groove 17. Then, rotate the inverted L-shaped inserts 13 so that the insertion part 19 of the inverted L-shaped inserts 13 is located on the outside of the medicine box A5 (i.e., Figure 8 (As shown in the state), after one inverted L-shaped insert 13 is rotated to the outside of the medicine box A5, the operator then lifts up the other three inverted L-shaped inserts 13 in turn and rotates them to the outside of the medicine box A5. At this time, the medicine tray 6 can be completely removed from the fixation. The fixation between the medicine box A5 and the medicine tray 6 achieved by the disassembly mechanism is released.
[0042] Finally, the operator holds the handle 8 on the surface of the medicine tray 6 and pulls the medicine tray 6 outward along the extension direction of the T-shaped slide groove 15. The T-shaped slider 9 slides outward along with the medicine tray 6 in the T-shaped slide groove 15 until the T-shaped slider 9 is completely disengaged from the T-shaped slide groove 15. The medicine tray 6 is then successfully removed from the medicine box A5, completing the disassembly process. This allows for the replacement of the medicine tray 6 with a fixing groove A7 of different apertures. The medicine tray 6 can be quickly removed, enabling free switching between large and small bottle medicine dissolving functions.
[0043] Throughout the operation of the oscillator, the fixed feet 2 installed at the bottom of the oscillator housing 1 are in close contact with the placement surface. By increasing the friction between the oscillator housing 1 and the placement surface, the oscillator provides stable support for the entire device and prevents the device from shaking or shifting during oscillation. The switch 4 on one side of the surface of the oscillator housing 1 is used to control the start and stop of the device, while another switch 4 is used to control the speed of the device's vibration.
[0044] The working principle of the oscillator of this utility model can be referred to the existing equipment name: KJ-202 type oscillator (powder dissolving device). Example
[0045] Please see Figure 9 This utility model provides a technical solution that is basically the same as that in Embodiment 1, with the following slight differences:
[0046] A mounting frame 20 is connected to one side of the medicine box A5. A plug-in block 21 is inserted into the inside of the mounting frame 20, and a medicine box B23 is connected to the top of the plug-in block 21. Fixing grooves B24 are evenly spaced on the surface of the medicine box B23. A bolt 22 is connected to the side of the mounting frame 20. One end of the bolt 22 passes through the plug-in block 21 and extends into the inside of the mounting frame 20.
[0047] When it is necessary to assemble the medicine box B23 with the large-diameter fixing slot B24 onto the medicine box A5 with the smaller-diameter fixing slot A7, the medicine box B23 with the larger-diameter fixing slot B24 (i.e., Figure 9 At the very top, the mounting frame 20 is located on the side of the medicine box A5 in the smaller diameter fixing slot A7, while the bottom of the medicine box B23 in the larger diameter fixing slot B24 is fixedly connected to the plug-in block 21. The cooperation between the mounting frame 20 and the plug-in block 21 plays a key role in precise positioning and quick connection. The mounting frame 20 is pre-fixed to the side of the medicine box A5 in the smaller diameter fixing slot A7, and the size of its internal slot precisely matches the shape of the plug-in block 21, forming a complementary plug-in structure. When it is necessary to fix the larger diameter... When the medicine box B23 of slot B24 is installed onto the medicine box A5 of the smaller diameter fixing slot A7, the operator only needs to align the bottom of the plug-in block 21 with the entrance of the mounting frame 20 and insert the plug-in block 21 into the mounting frame 20 in the vertical direction until the bottom of the plug-in block 21 is completely in contact with the inner bottom wall of the mounting frame 20. At this time, the outer wall of the plug-in block 21 is in close contact with the inner wall of the mounting frame 20, and the initial positioning is achieved through mechanical fitting, which restricts the horizontal displacement of medicine box A5 and medicine box B23.
[0048] After the insertion is completed, the tightening of bolt 22 further enhances the connection stability. The side of the mounting frame 20 is pre-set with threaded holes that match bolt 22, and the corresponding position of the plug block 21 is also provided with through holes. The operator screws bolt 22 into the mounting frame 20 from the side, and after passing through the through hole of the plug block 21, it finally extends into the threaded groove inside the mounting frame 20. As bolt 22 is tightened, its head gradually presses against the outer wall of the mounting frame 20. At the same time, the shank of bolt 22 is tightly engaged with the inner wall of the through hole of plug block 21 through friction, firmly locking plug block 21 in the mounting frame 20, thereby realizing that medicine box B23 is installed above medicine box A5 (i.e., medicine box B23 with a larger diameter fixing groove B24 and medicine box A5 with a smaller diameter fixing groove A7).
[0049] When it is necessary to disassemble medicine box B23 and medicine box A5, simply rotate bolt 22 counterclockwise to gradually remove it from mounting frame 20 and plug block 21. After bolt 22 is completely disengaged from the through hole, the locking state between plug block 21 and mounting frame 20 is released, and the operator can directly pull plug block 21 out of mounting frame 20 to complete the separation of medicine box B23 and medicine box A5.
[0050] The bottom of the medicine box A5 and the oscillation structure inside the oscillator housing 1 (not shown in the figure, that is, the motor of the oscillation structure drives the medicine box A5 to vibrate in the horizontal direction through the rotation of the eccentric wheel, thereby realizing the oscillation of the vial medicine (vial).
[0051] It can also be driven by mechanical devices (such as oscillating motors and transmission devices) to generate stable oscillation signals through periodic mechanical deformation; the oscillation structure is existing technology and will not be elaborated here.
[0052] The oscillation structure and the medicine box A5 can be either detached or fixed, allowing for flexible selection based on actual usage, which will not be elaborated here.
[0053] 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. A convenient disassembly medicine box for a powder dissolving shaker, characterized in that, include: The oscillator housing (1) has a medicine box A (5) installed on its top for storing powders that need to be dissolved. The medicine box A (5) is detachably connected to a medicine tray (6). The surface of the medicine tray (6) is provided with fixed slots A (7) at equal intervals for storing large bottles of medicines that need to be dissolved. The four corners of the top of the medicine box A (5) are provided with disassembly mechanisms. The inverted L-shaped plug (13) of the disassembly mechanism moves on the surface of the fixed column (10) so that the plug part (19) of the inverted L-shaped plug (13) is disengaged into the medicine tray (6), thereby releasing the fixation between the medicine box A (5) and the medicine tray (6) and making it easier to separate the medicine box A (5) from the medicine tray (6) and replace the fixed slots A (7) with different apertures on the medicine tray (6).
2. A convenient disassembly medicine box for a powder dissolving shaker according to claim 1, characterized in that, The disassembly mechanism includes a limiting plate (11) connected to the top of the fixed column (10). The fixed column (10) is fixedly connected to the top four corners of the medicine box A (5). The inverted L-shaped plug (13) slides on the surface of the fixed column (10). The surface of the fixed column (10) is fitted with a spring (12) located at the top of the inverted L-shaped plug (13) and the bottom of the limiting plate (11). The plug part (19) is integrally connected to the bottom of the inverted L-shaped plug (13).
3. A convenient disassembly medicine box for a powder dissolving shaker according to claim 1, characterized in that, The medicine tray (6) has square slots (17) at the four corners inside for inserting the plug-in part (19).
4. A convenient disassembly medicine box for a powder dissolving shaker according to claim 1, characterized in that, The medicine tray (6) is detachably connected to T-shaped sliders (9) on both sides, and the medicine box A (5) has a T-shaped groove (15) for sliding the T-shaped sliders (9) on its side.
5. A convenient disassembly medicine box for a powder dissolving shaker according to claim 1, characterized in that, The medicine tray (6) has a handle (8) that is detachably connected to its surface.
6. A convenient disassembly medicine box for a powder dissolving shaker according to claim 1, characterized in that, The bottom of the oscillator housing (1) is fitted with a fixed foot (2) for support.
7. A convenient disassembly medicine box for a powder dissolving shaker according to claim 1, characterized in that, A switch (4) is provided on the surface of the oscillator housing (1).
8. A convenient disassembly medicine box for a powder dissolving shaker according to claim 1, characterized in that, The side of the medicine box A (5) is connected to a mounting frame (20), and a plug-in block (21) is inserted into the inside of the mounting frame (20). The top of the plug-in block (21) is connected to a medicine box B (23). The surface of the medicine box B (23) is provided with fixing grooves B (24) at equal intervals. The side of the mounting frame (20) is connected to a bolt (22). One end of the bolt (22) passes through the plug-in block (21) and extends into the inside of the mounting frame (20).