A medicament dosing device

By setting up a pipeline layer and a pre-set pipeline channel assembly in the container, the problem of wasted space caused by the random placement of chemical dosing equipment is solved, achieving rapid installation and efficient space utilization, making it suitable for vehicle transportation.

CN224493871UActive Publication Date: 2026-07-14SCIMEE TECH & SCI CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SCIMEE TECH & SCI CO LTD
Filing Date
2025-07-30
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

The existing chemical dosing equipment is placed haphazardly in containers, resulting in oversized containers with cluttered interiors, serious waste of space, and reduced efficiency of vehicle transportation.

Method used

A pipeline layer is set up in the container, and the pipeline assemblies are pre-set. The pipelines of the reagent preparation unit and the delivery unit are set through the pipeline layer. The unified pipeline assembly realizes standardized layout, reduces exposed pipelines, and improves space utilization.

Benefits of technology

It enables rapid installation and standardized layout of the drug preparation and dispensing units, reduces container volume, and improves the convenience of vehicle transportation and space utilization.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224493871U_ABST
    Figure CN224493871U_ABST
Patent Text Reader

Abstract

The utility model relates to the technical field of super magnetic separation equipment, concretely provides a medicament feeding device, including external container, the container bottom is divided into pipeline layer and equipment layer by the support base plate, is provided with medicament preparation unit and medicament feeding unit in the equipment layer, pipeline layer is preset with pipeline channel assembly, and the support base plate board surface is preset with the connecting port that communicates with pipeline channel assembly. The utility model each equipment's pipeline is directly set up in the pipeline layer through the pipeline channel assembly, and a large number of exposed pipelines will not appear, and simultaneously because of pipeline advance preset, only need to connect the equipment's pipeline entrance and exit with the connecting port of support base plate board surface when each equipment installation, can complete installation, need not consider the arrangement of exposed pipeline, install fast and convenient, also can realize the standardization arrangement of medicament preparation unit and medicament feeding unit through unified pipeline assembly, improve space utilization, and then can reduce the volume of selected container, more favorably vehicle-mounted transportation.
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Description

Technical Field

[0001] This utility model relates to the field of supermagnetic separation equipment technology, and specifically provides a reagent dosing device. Background Technology

[0002] Supermagnetic separation water purification technology is mainly used to remove non-magnetic or weakly magnetic particulate pollutants from water. Its technical principle is based on traditional coagulation technology. By adding a magnetically conductive medium, the chemical flocs formed during the coagulation process are inoculated with magnetic media and then separated from the water by an external magnetic field. In other words, the magnetic separation process replaces the sedimentation separation process in the original coagulation technology, thereby achieving rapid and efficient water purification.

[0003] In ultramagnetic separation equipment used for water purification, a dosing system is required to automatically replenish the coagulant in the flocculation tank. This dosing system comprises various instruments for preparing different chemicals, which are typically housed in a container for ease of management and transport. However, current pharmaceutical equipment is often haphazardly placed within the container with exposed piping, leading to oversized containers with cluttered interiors and significant space wastage. Utility Model Content

[0004] To address the aforementioned problems, this utility model provides a more rationally and systematically arranged drug dosing device installed in a container.

[0005] The technical solution of this utility model is as follows:

[0006] A drug dosing device includes an external container. The bottom of the container is divided into a pipeline layer and an equipment layer by a supporting base plate. The equipment layer is provided with a drug preparation unit and a drug dispensing unit. The pipeline layer is provided with a pipeline channel assembly. The supporting base plate is provided with a connection port that communicates with the pipeline channel assembly.

[0007] In this design, a piping layer is installed within the container. Piping assemblies can be pre-installed in this layer, and the piping pathways for the reagent preparation and dispensing units are directly connected to these assemblies within the piping layer. This eliminates the need for numerous exposed pipes. Furthermore, because the piping is pre-installed, installation of each piece of equipment only requires connecting the pipe inlets and outlets to the connection points on the supporting base plate. There is no need to consider the layout of exposed pipes. This design allows for quick and convenient installation, while also enabling standardized arrangement of the reagent preparation and dispensing units through a unified piping assembly. This improves space utilization, reduces the volume of the selected container, and facilitates vehicle transport.

[0008] Preferably, the pipeline assembly includes a clean water pipeline and a drain pipeline, and a clean water pump is also installed in the pipeline layer, which provides power for supplying water to the clean water pipeline from bottom to top.

[0009] Since various devices in the equipment layer need to be mounted on the support base plate, the support base plate needs to be strong enough to prevent damage, thereby avoiding damage to the pipeline assembly in the pipeline layer below. In order to ensure the strength of the support base plate, multiple support columns are evenly arranged in the pipeline layer to support the support base plate. The multiple support columns share the weight of the devices on the support base plate to ensure that the pipeline assembly is not crushed.

[0010] Based on the above, since most of the pipeline structure is located in the invisible pipeline layer, its maintenance and installation are quite troublesome. In order to solve this problem, the support base plate is composed of multiple detachable and connected support plates.

[0011] In this solution, during the installation of the pipeline channel assembly, the corresponding support plate can be removed to provide installation space for the pipeline channel assembly. Furthermore, when maintenance is required, the corresponding or adjacent support plate can be removed separately to facilitate maintenance.

[0012] Meanwhile, the drug preparation unit often has multiple vent ports and requires multiple vent pipes. To avoid the vent pipes being too complicated, the vent pipes include a main vent pipe that is connected to the outside. Multiple branch vent pipes are continuously installed on the main vent pipe through a T-junction structure. One-way valves are installed on the branch vent pipes. The branch vent pipes form connection ports on the support base plate for connecting to the vent pipes of the drug preparation unit.

[0013] In this scheme, all branch drain pipes are connected to the main drain pipe. The drain pipes in the pipeline layer are only the main drain pipe. Each branch drain pipe has a one-way valve to control one-way drainage, so it will not interfere with other branch drain pipes. The structure is simple and there are no redundant pipes, which makes the entire drain pipeline occupy little space and facilitates installation and maintenance.

[0014] Preferably, the pharmaceutical preparation unit includes a PAM preparation machine and a PAC preparation machine. The width of the container is greater than or equal to the length of the PAC preparation machine. The PAC preparation machine is located at one end of the container's length direction, and the length direction of the PAC preparation machine is parallel to the width direction of the container. The container door is located at the other end of the container's length direction.

[0015] In this solution, since the existing PAC preparation machine and PAM preparation machine often occupy the largest volume compared to other equipment, by setting it in the first position along the length of the container with a suitable width, we can minimize the amount of extra space and reduce space waste.

[0016] Preferably, the length direction of the PAM preparation machine is parallel to the length direction of the container, and the PAM preparation machine is located at one end of the width direction of the container.

[0017] Preferably, the equipment layer is equipped with a ventilation fan, which provides air exchange and heat exhaust for the container.

[0018] Preferably, the equipment layer includes a control cabinet for controlling the operation of the drug preparation unit and the drug dispensing unit.

[0019] In this scheme, a control system can be set up in the control cabinet to automatically control the amount of reagent prepared by the reagent preparation unit and the amount of reagent dispensed by the reagent dispensing unit. It also allows workers to centrally control the working status of all equipment in the container from the control cabinet.

[0020] The beneficial effects of this utility model are:

[0021] This invention incorporates a piping layer within a shipping container. Piping assemblies can be pre-installed within this layer, allowing the pipeline pathways for the reagent preparation and dispensing units to be directly integrated into the piping layer. This eliminates the need for numerous exposed pipes. Furthermore, due to the pre-installed piping, installation is simple: connect the equipment's pipe inlets and outlets to the support base plate. There's no need to consider the layout of exposed pipes. This rapid and convenient installation, coupled with the standardized arrangement of the reagent preparation and dispensing units through a unified piping assembly, improves space utilization and reduces the size of the selected container, making it more suitable for vehicle transport. Attached Figure Description

[0022] To more clearly illustrate the technical solution of the present invention, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of the present invention. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0023] Figure 1 This is a schematic diagram of the layout of this utility model;

[0024] Figure 2 This is a partial cross-sectional view of the pipeline layer of this utility model;

[0025] Figure 3 This utility model Figure 2 A partial sectional view along direction A in the middle;

[0026] Figure 4 This utility model Figure 2 A partial sectional view along the B direction.

[0027] In the above figures, the corresponding reference numerals are as follows:

[0028] 1-Container, 2-Equipment layer, 3-Pipeline layer, 31-Support column, 4-Reagent preparation unit, 41-PAM preparation machine, 42-PAC preparation machine, 5-Reagent dispensing unit, 51-PAM dispensing machine, 52-PAC dispensing machine, 6-Pipeline channel assembly, 61-Clean water pipeline, 62-Drain pipeline, 621-Main drain pipe, 622-Branch drain pipe, 623-One-way valve, 63-Clean water pump, 7-Support base plate, 71-Connection port, 72-Support plate, 73-Connecting plate, 74-Bolt, 8-Ventilation fan, 9-Control cabinet. Detailed Implementation

[0029] The technical solution of the present invention will be clearly and completely described in conjunction with the accompanying drawings and through specific implementation methods of the embodiments of the present invention.

[0030] A drug dosing device, such as Figure 1 As shown, it includes an outer container 1. The bottom of the container 1 is divided into a pipeline layer 3 and an equipment layer 2 by a supporting base plate 7. The equipment layer 2 is provided with a drug preparation unit 4 and a drug dispensing unit 5. The pipeline layer 3 is provided with a pipeline channel assembly 6. The supporting base plate 7 is provided with a connection port 71 that communicates with the pipeline channel assembly 6.

[0031] Specifically, a pipeline layer 3 is set up in container 1. The pipeline channel assembly 6 can be pre-installed in pipeline layer 3. The pipeline passages of the agent preparation unit 4 and the agent delivery unit 5 are directly set in pipeline layer 3 through the pipeline channel assembly 6, which avoids a large number of exposed pipelines. At the same time, since the pipelines are pre-set, during the installation of each piece of equipment, it is only necessary to connect the pipeline inlet and outlet of the equipment to the connection port 71 on the surface of the support base plate 7 to complete the installation. There is no need to consider the layout of exposed pipelines. The installation is quick and convenient. At the same time, the standardized layout of the agent preparation unit 4 and the agent delivery unit 5 can be achieved through the unified pipeline assembly, which improves the space utilization rate and reduces the volume of the selected container 1, making it more conducive to vehicle transportation.

[0032] Example 1:

[0033] like Figure 1 As shown, the pharmaceutical preparation unit 4 includes a PAM preparation machine 41 and a PAC preparation machine 42. The width of the container 1 is greater than or equal to the length of the PAC preparation machine 42. The PAC preparation machine 42 is located at one end of the length direction of the container 1. The length direction of the PAC preparation machine 42 is parallel to the width direction of the container 1. The door of the container 1 is located at the other end of the length direction of the container 1.

[0034] In this scheme, since the existing PAC preparation machine 42 and PAM preparation machine 41 and other equipment often occupy the largest volume, by setting it in the first position along the length of the container 1 with a suitable width, we can minimize the amount of extra space generated and reduce space waste.

[0035] Since the PAM preparation machine 41 is generally longer than the PAC preparation machine 42, if the PAM preparation machine 41 is set at one end of the length direction of the container 1, a larger container 1 must be selected, which will result in more redundant space in the container 1. The increased redundant space will also make loading and transportation more difficult.

[0036] Furthermore, the PAM preparation machine 41 is parallel to the length direction of the container 1, and the PAM preparation machine 41 is located at one end of the width direction of the container 1. Based on the PAC preparation machine 42 being located at one end of the length direction of the container 1, the PAM preparation machine 41 is attached to the long side of the container 1, making the equipment arrangement inside the container 1 more reasonable and facilitating the arrangement of pipeline channels in the pipeline layer 3.

[0037] Furthermore, the drug dispensing unit 5 includes a PAM dispenser 51 and a PAC dispenser 52, which are directly adjacent to the corresponding drug preparation unit 4 and have drug dispensing pipes extending from the container 1. A ventilation fan 8 is installed in the equipment layer 2 to provide air exchange and heat exhaust for the container 1. A control cabinet 9 is also installed in the equipment layer 2 to control the operation of the drug preparation unit 4 and the drug dispensing unit 5. The control cabinet 9 can be equipped with a control system to automatically control the drug preparation amount of the drug preparation unit 4 and the drug dispensing amount of the drug dispensing unit 5, and also allows workers to centrally control the operating status of all equipment in the container 1 from the control cabinet 9.

[0038] Example 2

[0039] Based on Embodiment 1, since various devices in Equipment Layer 2 need to be mounted on the supporting base plate 7, the supporting base plate 7 needs sufficient strength to prevent damage, thereby avoiding damage to the pipe channel assembly 6 in the lower pipe layer 3. To ensure the strength of the supporting base plate 7, such as... Figure 2 As shown, multiple support columns 31 are evenly arranged in the pipeline layer 3 to support the support base plate 7. The multiple support columns 31 share the weight of the equipment on the support base plate 7, ensuring that the pipeline channel assembly 6 is not crushed.

[0040] Furthermore, since most of the pipeline structure is located in the invisible pipeline layer 3, its maintenance and installation are quite troublesome. To solve this problem, the support base plate 7 is composed of multiple detachably connected support plates 72.

[0041] Specifically, such as Figure 3 and Figure 4 As shown, the connection port 71 of the pipe channel assembly 6 is located on the support base plate 7, between the installation gaps of two adjacent support plates 72. During installation of the pipe channel assembly 6, the corresponding support plates 72 can be removed to provide installation space for the pipe channel assembly 6. When the support plates 72 are reinstalled, they will not interfere with the pipes connecting downwards from the equipment to the connection port 71. Furthermore, when maintenance is required, the support plates 72 can be directly removed without being affected by the already connected pipes, facilitating maintenance.

[0042] Furthermore, since the piping assembly 6 is pre-installed in container 1, it will have multiple connection ports 71 to accommodate more equipment models. Additionally, since there may be extra connection ports 71, to prevent foreign objects, dust, etc., from entering the piping assembly 6 through these extra ports 71, such as... Figure 2 and Figure 3 As shown, a connecting plate 73 is also provided between the two supporting plates 72 with connection ports 71. There are two types of connecting plates 73: one with holes for connecting the equipment's pipes and piping assemblies, and the other without holes for sealing the connection ports 71. An opening is provided between the two supporting plates 72, with the supporting plates 72 protruding from the opening wall to form a stepped structure. Regardless of the type of connecting plate 73, its size matches the size of the opening, its edges are also stepped, and the connecting plate 73 is positioned precisely within the opening and supported by the protruding wall of the opening to prevent it from falling.

[0043] Furthermore, the connecting plate 73 is provided with bolt holes 74 for inserting bolts 74 to connect the connecting plate 73 to the support plate 72, thereby preventing the connecting plate 73 from being accidentally opened or flipped up.

[0044] It should be noted that the main body of the pipeline channel assembly 6 is generally not installed directly below the equipment to avoid the pipeline channel assembly 6 occupying the position of the support column 31 and reducing the load-bearing capacity directly below the equipment.

[0045] Example 3:

[0046] Based on Example 2, such as Figure 1 and Figure 2As shown, the pipeline assembly 6 includes a clean water pipeline 61 and a drain pipeline 62. The clean water pipeline 61 connects to external clean water, providing a clean water source for the reagent preparation unit 4. A clean water pump 63 is also installed in the pipeline layer 3, providing power for the clean water pipeline 61 to supply water from bottom to top. In this embodiment, one end of the clean water pipeline can be located outside the container 1 to connect to a clean water source. The clean water pipeline 61 in the pipeline layer 3 can be a multi-channel structure such as a tee or a four-way according to the actual required inlet of the reagent preparation unit 4. In this embodiment, it is preferable to install a single clean water pump 63 at the inlet of the clean water pipeline 61, providing power to all branches in the clean water pipeline 61, and also providing power to the clean water pipeline 61 for subsequent sludge dewatering and magnetic recovery rinsing. In this embodiment, the clean water pipeline 61 is a three-way structure, with one end connected to an external water source input pipe, one end connected to the PAM preparation machine 41, and the last end connected to the PAC preparation machine 42.

[0047] Furthermore, since the drug preparation unit 4 often has multiple vent ports and requires multiple vent pipes, in order to avoid the vent pipe 62 being too cumbersome, the vent pipe 62 includes a main vent pipe 621 that is connected to the outside. Multiple branch vent pipes 622 are continuously arranged on the main vent pipe 621 through a T-junction structure. One-way valves 623 are provided on the branch vent pipes 622. The branch vent pipes 622 form connection ports 71 on the surface of the support base plate 7 for connecting to the vent pipes of the drug preparation unit 4.

[0048] Specifically, all branch drain pipes 622 are connected to the main drain pipe 621. The drain pipes 62 in the pipe layer 3 only have the main drain pipe 621. Each branch drain pipe 622 has a one-way valve 623 to control one-way drainage, which will not interfere with other branch drain pipes 622. Moreover, the structure is simple and there are no redundant pipes, which makes the entire drain pipe 62 occupy little space and facilitates installation and maintenance.

[0049] It should be noted that the power cords, wires and other cable components of each device can also be laid in the conduit layer 3 to avoid these cables being easily damaged due to exposure.

[0050] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claimed utility model.

Claims

1. A drug dosing device, characterized in that, The container (1) includes an external container. The bottom of the container (1) is divided into a pipeline layer (3) and an equipment layer (2) by a supporting base plate (7). The equipment layer (2) is provided with a drug preparation unit (4) and a drug delivery unit (5). The pipeline layer (3) is pre-installed with a pipeline channel assembly (6). The supporting base plate (7) has a pre-installed connection port (71) that communicates with the pipeline channel assembly (6).

2. The pharmaceutical dosing device according to claim 1, characterized in that, The pipeline assembly (6) includes a clean water pipeline (61) and an emptying pipeline (62). A clean water pump (63) is also provided in the pipeline layer (3), which provides the clean water pipeline (61) with the power to supply water from bottom to top.

3. The pharmaceutical dosing device according to claim 1, characterized in that, Multiple support columns (31) are evenly arranged in the pipeline layer (3) to support the support base plate (7).

4. The pharmaceutical dosing device according to claim 3, characterized in that, The supporting base plate (7) is composed of multiple detachably connected supporting small plates (72).

5. A pharmaceutical dosing device according to claim 2, characterized in that, The venting pipeline (62) includes a main venting pipe (621) connected to the outside. Multiple branch venting pipes (622) are continuously arranged on the main venting pipe (621) through a three-way structure. A one-way valve (623) is provided on the branch venting pipe (622). The branch venting pipe (622) forms a connection port (71) on the surface of the supporting base plate (7) for connecting to the venting pipeline of the drug preparation unit (4).

6. The pharmaceutical dosing device according to claim 1, characterized in that, The pharmaceutical preparation unit (4) includes a PAM preparation machine (41) and a PAC preparation machine (42). The width of the container (1) is greater than or equal to the length of the PAC preparation machine (42). The PAC preparation machine (42) is located at one end of the length direction of the container (1). The length direction of the PAC preparation machine (42) is parallel to the width direction of the container (1). The door of the container (1) is located at the other end of the length direction of the container (1).

7. A pharmaceutical dosing device according to claim 6, characterized in that, The length direction of the PAM preparation machine (41) is parallel to the length direction of the container (1), and the PAM preparation machine (41) is located at one end of the width direction of the container (1).

8. The reagent dosing device according to claim 1, characterized in that, A ventilation fan (8) is provided in the equipment layer (2).

9. A pharmaceutical dosing device according to claim 1, characterized in that, The equipment layer (2) is equipped with a control cabinet (9) that controls the operation of the drug preparation unit (4) and the drug delivery unit (5).