A powder medicine storage box capable of quantitative extraction

Abstract

The utility model relates to a medicine storage technical field especially, more particularly to a powder medicine storage box of quantitative taking out. The utility model provides a powder medicine storage box of quantitative taking out can automatically take out the powder medicine quantitatively, saves manpower, improves the medicine taking efficiency and precision. A powder medicine storage box of quantitative taking out, including have support leg and operation platform etc.

Description

Technical Field

[0001] This utility model relates to the field of pharmaceutical storage technology, and in particular to a powdered medicine storage box that can dispense a quantitative amount of medicine. Background Technology

[0002] Special care must be taken to protect the quality and stability of powdered medicines during storage, and to prevent them from being affected by external environmental factors such as moisture, oxygen, and light.

[0003] Existing methods for storing powdered medications typically involve using containers with good sealing properties. However, removing powdered medications requires medical staff to use a measuring spoon, which is cumbersome and prone to errors in the amount of medication removed.

[0004] Therefore, a powder medicine storage box that can automatically dispense powdered medicines in a quantitative manner has now been developed, saving manpower and improving the efficiency and accuracy of medicine dispensing. Utility Model Content

[0005] To overcome the shortcomings of existing powder medicine storage boxes, which require medical staff to use a measuring spoon to remove powder medicines, making the operation cumbersome and prone to errors in the amount of medicine removed, this utility model provides a powder medicine storage box that can automatically remove powder medicines in a quantitative manner, saving manpower and improving the efficiency and accuracy of medicine removal.

[0006] The technical implementation scheme of this utility model is as follows: a powder medicine storage box that can quantitatively extract powder medicine includes a support leg, an operating table, a sealing cover, a fixing frame, a baffle, a feeding plate, a storage box, a storage box, a stirring component, and a receiving component. The operating table is connected to the upper side of the support leg, and a sealing cover is placed on the upper side of the operating table. A fixing frame is connected to the inner side of the upper part of the operating table, and a baffle is connected to the lower side of the fixing frame. A feeding plate is rotatably connected to the upper side of the baffle, and multiple storage boxes are connected to the lower side of the feeding plate. All storage boxes are connected to the feeding plate. A storage box is connected to the fixing frame and is located on the upper side of the feeding plate. The storage box is equipped with a stirring component that can stir the powder medicine, and a receiving component that can receive the medicine is provided on the operating table.

[0007] In a preferred embodiment of this utility model, a handle is provided on the upper side of the sealing cap.

[0008] In a preferred embodiment of this utility model, a material discharge hole is provided on the baffle.

[0009] In a preferred embodiment of this utility model, the storage box has a discharge hole.

[0010] In a preferred embodiment of this utility model, the agitation assembly includes an inclined plate, an agitator, a motor, and a rotating shaft. An inclined plate is connected to the upper side of the storage box, and a sealing cover is in contact with the inclined plate. A motor is connected to the lower side of the operating table. The motor and the processor are electrically connected through a control module. A rotating shaft is connected to the output shaft of the motor. The rotating shaft passes through the baffle and the storage box. A feeding plate is connected to the rotating shaft. An agitator is slidably connected to the upper side of the rotating shaft. The agitator is located inside the storage box and is in contact with the inclined plate.

[0011] In a preferred embodiment of the present invention, the receiving assembly includes a gear, a gear ring, a tray, and a receiving box. A gear is connected to the motor output shaft, a tray is rotatably connected to the lower left of the operating table, a gear ring is connected to the tray, the gear ring meshes with the gear, and multiple receiving boxes are placed on the upper side of the tray.

[0012] Compared with the prior art, the present invention has the following advantages: 1. The present invention starts the motor, drives the rotating shaft to rotate, and moves the storage box to the bottom of the discharge hole of the storage box to receive the powder medicine. Then the storage box continues to rotate to the discharge hole on the baffle, and the powder medicine falls into the receiving box. At the same time as the rotating shaft rotates, the gear and the gear ring mesh to rotate the tray and switch the receiving box, so that the powder medicine falls into the receiving box in sequence. This achieves the effect of automatically taking out the powder medicine in a quantitative manner, saving manpower and improving the efficiency and accuracy of medicine taking.

[0013] 2. This utility model uses a rotating shaft to drive a stirring frame to rotate simultaneously. As the stirring frame rotates, it moves up and down along the inclined plate to vibrate and disperse the powdered medicine, thereby breaking down the cohesive force between the powdered medicines and allowing them to flow out smoothly. Attached Figure Description

[0014] Figure 1 This is a three-dimensional structural diagram of the present invention.

[0015] Figure 2 This is a three-dimensional structural diagram of the inclined plate, fixing frame, and other components of this utility model.

[0016] Figure 3 This is a three-dimensional structural cross-sectional view of the fixing frame and storage box of this utility model.

[0017] Figure 4 This is a three-dimensional structural diagram of the gears, motors, and other components of this utility model.

[0018] Figure 5 This is a three-dimensional sectional view of the stirring frame and other components of this utility model.

[0019] The components in the attached diagram are labeled as follows: 1. Support leg, 2. Operating table, 21. Sealing cover, 3. Fixing frame, 4. Baffle, 5. Feeding plate, 51. Storage box, 6. Storage box, 7. Inclined plate, 8. Agitator, 9. Motor, 91. Shaft, 10. Gear, 11. Gear ring, 12. Tray, 13. Receiving box. Detailed Implementation

[0020] First, it should be noted that in different described embodiments, the same components are given the same reference numerals or the same component names. The disclosure contained throughout this specification can be applied semantically to the same components having the same reference numerals or the same component names. The location descriptions selected in the specification, such as upper, lower, lateral, etc., also refer to the directly described and illustrated figures and are semantically applied to the new location when the location changes.

[0021] A powder medicine storage box that can dispense a measured amount of medicine, such as Figures 1-5 As shown, the device includes a support leg 1, an operating platform 2, a sealing cover 21, a fixing frame 3, a baffle 4, a feeding plate 5, a storage box 51, a storage box 6, a stirring component, and a receiving component. The operating platform 2 is connected to the upper side of the support leg 1. The sealing cover 21 is placed on the upper side of the operating platform 2. The sealing cover 21 has a handle on its upper side for easy gripping. The fixing frame 3 is connected to the upper inner side of the operating platform 2. The baffle 4 is connected to the lower side of the fixing frame 3. The baffle 4 has a feeding hole for easy feeding. The feeding plate 5 is rotatably connected to the upper side of the baffle 4. Four storage boxes 51 are connected to the lower side of the feeding plate 5. All storage boxes 51 are connected to the feeding plate 5. The storage box 6 is connected to the fixing frame 3. The storage box 6 is located on the upper side of the feeding plate 5. The storage box 6 has a discharge hole for easy discharging. The storage box 6 is equipped with a stirring component. The operating platform 2 is equipped with a receiving component.

[0022] like Figures 2-5 As shown, the agitation assembly includes an inclined plate 7, an agitator 8, a motor 9, and a rotating shaft 91. The inclined plate 7 is connected to the upper side of the storage box 6, and the sealing cover 21 is in contact with the inclined plate 7. The motor 9 is connected to the lower side of the operating table 2. The motor 9 and the processor are electrically connected through a control module. The rotating shaft 91 is connected to the output shaft of the motor 9. The rotating shaft 91 passes through the baffle 4 and the storage box 6. The feeding plate 5 is connected to the rotating shaft 91. The agitator 8 is slidably connected to the upper side of the rotating shaft 91. The agitator 8 is located inside the storage box 6 and is in contact with the inclined plate 7.

[0023] like Figure 4 and Figure 5As shown, the receiving assembly includes a gear 10, a gear ring 11, a tray 12, and receiving boxes 13. The gear 10 is connected to the output shaft of the motor 9. The tray 12 is rotatably connected to the lower left part of the operating table 2. The gear ring 11 is connected to the tray 12 and meshes with the gear 10. Four receiving boxes 13 are placed on the upper side of the tray 12.

[0024] When using this invention, first place the support leg 1 in the powder medicine storage area, where the support leg 1 supports the operating table 2. Then remove the sealing cover 21, pour the powder medicine into the storage box 6, and then close the sealing cover 21 to seal and store the powder medicine. When a quantitative amount of powder medicine needs to be removed, the processor starts the motor 9 through the control module, driving the rotating shaft 91 to rotate. This causes the rotating shaft 91 to rotate the feeding plate 5 and the storage box 51. When the storage box 51 moves below the discharge hole of the storage box 6, the powder medicine falls into the storage box 51. Then the storage box 51 continues to rotate. When the storage box 51 moves above the discharge hole on the baffle 4, the powder medicine... The powder falls into the receiving box 13 on the tray 12. As the rotating shaft 91 rotates, it drives the gear 10 to rotate and mesh with the gear ring 11, causing the tray 12 to rotate and switch the receiving box 13. This allows the powder medicine in the storage box 51 to fall sequentially into the receiving box 13, which can then be removed. This automatically dispenses a measured amount of powder medicine, saving manpower and improving dispensing efficiency and accuracy. Simultaneously, the rotating shaft 91 drives the stirring frame 8 to rotate. The stirring frame 8 moves up and down along the inclined plate 7, vibrating and dispersing the powder medicine, thereby breaking down the cohesive forces between the powder medicines and allowing them to flow out smoothly.

[0025] Although this disclosure has been described with respect to only a limited number of embodiments, those skilled in the art who benefit from this disclosure will understand that various other embodiments can be devised without departing from the scope of this invention. Therefore, the scope of this invention should be limited only by the appended claims.

Claims

1. A powder medicine storage box capable of dispensing a measured amount of medicine, characterized in that, It includes a support leg (1), an operating table (2), a sealing cover (21), a fixing frame (3), a baffle (4), a feeding plate (5), a storage box (51), a storage box (6), a stirring component, and a receiving component. The operating table (2) is connected to the upper side of the support leg (1). The sealing cover (21) is placed on the upper side of the operating table (2). The fixing frame (3) is connected to the upper inner side of the operating table (2). The baffle (4) is connected to the lower side of the fixing frame (3). The feeding plate (5) is rotatably connected to the upper side of the baffle (4). Multiple storage boxes (51) are connected to the lower side of the feeding plate (5). All storage boxes (51) are connected to the feeding plate (5). The storage box (6) is connected to the fixing frame (3). The storage box (6) is located on the upper side of the feeding plate (5). The storage box (6) is equipped with a stirring component that can stir the powdered medicine. The receiving component that can receive the medicine is provided on the operating table (2).

2. A powder medicine storage box capable of quantitative dispensing according to claim 1, characterized in that, A handle is provided on the upper side of the sealing cap (21).

3. A powder medicine storage box capable of quantitative dispensing according to claim 1, characterized in that, The baffle (4) has a feeding hole.

4. A powder medicine storage box capable of quantitative dispensing according to claim 1, characterized in that, The storage box (6) has a discharge hole.

5. A powder medicine storage box capable of quantitative dispensing according to claim 1, characterized in that, The agitation assembly includes a sloping plate (7), an agitator (8), a motor (9), and a rotating shaft (91). The sloping plate (7) is connected to the upper side of the storage box (6), and the sealing cover (21) is in contact with the sloping plate (7). The motor (9) is connected to the lower side of the operating table (2). The motor (9) and the processor are electrically connected through the control module. The rotating shaft (91) is connected to the output shaft of the motor (9). The rotating shaft (91) passes through the baffle (4) and the storage box (6). The feeding plate (5) is connected to the rotating shaft (91). The agitator (8) is slidably connected to the upper side of the rotating shaft (91). The agitator (8) is located inside the storage box (6) and is in contact with the sloping plate (7).

6. A powder medicine storage box capable of quantitative dispensing according to claim 5, characterized in that, The receiving assembly includes a gear (10), a gear ring (11), a tray (12), and a receiving box (13). The gear (10) is connected to the output shaft of the motor (9). The tray (12) is rotatably connected to the lower left of the operating table (2). The gear ring (11) is connected to the tray (12). The gear ring (11) meshes with the gear (10). Multiple receiving boxes (13) are placed on the upper side of the tray (12).

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