A solution adding platform

By designing the base, support, and loading frame of the solution dispensing platform, the problem of insufficient limiting in traditional platforms is solved, enabling automatic tilting and dispensing, reducing operational burden and safety risks, and improving the efficiency and safety of solution dispensing.

CN224377651UActive Publication Date: 2026-06-19TOT BIOPHARM CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
TOT BIOPHARM CO LTD
Filing Date
2025-06-13
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Traditional solution dispensing platforms lack reasonable limiting mechanisms, requiring operators to hold the solution bottles by hand, increasing their workload and raising safety risks.

Method used

Design a solution filling platform, including a base, a support, and a loading frame. The support plate and the limiting rail form an inclined loading cavity. The support plate and the platform are set at an acute angle. The tilt angle is adjusted by using a hinge shaft and pads. The support consists of a column and a limiting rail, providing stable support and height adjustment.

Benefits of technology

It enables automatic tilting and drainage of solutions, reducing residue, lowering operational burden, improving safety, adapting to different sizes of solution bottles, improving platform versatility and efficiency, and reducing failure rate and manufacturing costs.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to solution liquid adding facility field discloses a solution liquid adding platform. Solution liquid adding platform includes pedestal, support and loading frame, the table panel of pedestal provides support connection, the upper end surface of support installs peristaltic pump, and the loading frame is surrounded by the support plate and the spacing bar of the inclination setting and is surrounded loading cavity to place solution bottle. The support plate is set with the table panel and presents acute angle, makes the natural inclination of solution bottle and places, and can realize solution complete drainage without manual support, realizes automatic inclination and drains, remarkably reduces the operation burden, and the inclination angle promotes the solution in the bottle to gather to the bottle mouth, reduces the residual quantity, accords with the efficient utilization demand of medicine, the spacing bar surrounds the support plate and forms the loading cavity, effectively limits the solution bottle to slide or pour under the inclination state, plays the safe spacing effect, avoids the operator direct contact corrosive solution, promotes the security.
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Description

Technical Field

[0001] This utility model relates to the field of solution dispensing facilities, and specifically to a solution dispensing platform. Background Technology

[0002] When filling the solution medicine bottle, the inlet pipe is usually connected to the input side of the peristaltic pump. The inlet pipe is connected to the solution medicine bottle, and the solution is added by the peristaltic pump to output the solution medicine bottle to the next process.

[0003] Traditional solution dispensing platforms place the peristaltic pump and the solution bottle adjacent to each other on the upper part of the platform, but the solution bottle lacks reasonable restraint mechanisms. In actual operation, users need to hold the solution bottle by hand to ensure container safety, and to reduce liquid residue, the solution bottle is usually kept at an angle to ensure complete dispensing. This method increases the burden on operators, and since the solution is a corrosive and harmful substance to the human body, direct hand operation increases safety risks. Utility Model Content

[0004] In view of this, the present invention provides a solution addition platform to solve the problems mentioned in the background art.

[0005] In a first aspect, this utility model provides a solution addition platform, comprising:

[0006] Base, including the platform;

[0007] A support, the upper end face of which is adapted to install a peristaltic pump, is fixedly mounted on the table panel;

[0008] A loading rack is disposed on the table panel. The loading rack is open and includes a support plate and a limiting rail. The support plate is disposed at the bottom area of ​​the limiting rail, and the limiting rail surrounds the support plate. The support plate and the limiting rail together form a loading cavity, which is suitable for placing solution bottles. The upper extension surface of the support plate forms an acute angle of 10°-60° with the horizontal extension surface of the table panel.

[0009] Beneficial effects: The solution dispensing platform consists of a base, a support, and a loading rack. The platform panel of the base provides support and connection, a peristaltic pump is installed on the upper surface of the support, and the loading rack, formed by an inclined support plate and a limiting rail, creates a loading cavity for holding solution bottles. The upper surface of the support plate is set at an acute angle to the platform panel, allowing the solution bottles to be placed at a natural tilt, achieving complete solution drainage without manual support. This automatic tilting and drainage significantly reduces the operational burden, and the tilt angle promotes the concentration of solution in the bottle towards the bottle opening, reducing residue and meeting the requirements for efficient drug utilization. The limiting rail, forming a loading cavity around the support plate, effectively restricts the solution bottles from sliding or tipping over while tilted, providing a safety limit and preventing operators from directly contacting corrosive solutions, thus improving safety.

[0010] In some optional embodiments, the loading frame is provided with a hinge shaft at its bottom, the hinge shaft is mounted on the platform, the hinge shaft is located on the side of the support plate inclined toward the platform, and the support plate is rotatably connected to the platform via the hinge shaft.

[0011] Beneficial effects: The loading rack is rotatably connected to the platform via a hinge shaft; the support plate can rotate around the hinge shaft, making the angle flexible and adjustable to adapt to different sizes of solution bottles or residue control needs, such as high-viscosity solutions requiring a larger tilt angle; users can quickly adjust the tilt angle by rotation without replacing parts, making operation convenient and improving the platform's versatility and efficiency.

[0012] In some optional embodiments, the solution addition platform further includes a pad disposed between the support plate and the platform panel. The pad is adjustable on the platform panel to adjust the angle between the extension surface of the support plate and the extension surface of the platform panel.

[0013] Beneficial effects: The pad is placed between the support plate and the tabletop, and its height can be adjusted to change the tilt angle; the tilt angle can be adjusted by adjusting the contact thickness between the pad and the support plate, ensuring that all kinds of solutions can be completely discharged; and the pad provides rigid support, avoiding the swaying risk that may exist in the hinged structure, improving structural stability, and is suitable for high-precision liquid dispensing scenarios.

[0014] In some alternative embodiments, the support plate is fixedly disposed with the table panel, and the limiting rail is fixedly disposed with the support.

[0015] Beneficial effects: By fixing the support plate to the tabletop and the limit bar to the support, the loading rack is fixed in place. The support plate has a fixed tilt angle. This fixing method can make the structure sturdy and durable, reduce the failure rate, and is suitable for long-term high-frequency use environments. It also simplifies the manufacturing process, optimizes manufacturing costs, and is more suitable for standardized mass production.

[0016] In some alternative embodiments, the support includes columns and limiting platforms, with at least three columns provided and the limiting platforms fixed to the upper ends of all the columns.

[0017] Beneficial effects: The support consists of three or more columns and a limiting platform fixed to the top of all the columns; by distributing the load among multiple columns, the vibration of the peristaltic pump can be prevented from causing the solution bottle to shake, thus improving the stability during operation; the limiting platform fixes the position of the peristaltic pump, ensuring that the inlet pipe is reliably connected to the solution bottle and avoiding the risk of pipe detachment.

[0018] In some alternative embodiments, the column is configured as a telescopic joint structure, and the solution dispensing platform further includes a locking element threaded onto the column to lock the telescopic length of the column.

[0019] Beneficial effects: The column adopts a telescopic joint structure, with locking components securing the telescopic height of the column. This design facilitates the adaptive adjustment of the limit platform's height. By adjusting the telescopic length of the column to match different lengths of inlet pipes, bending or pulling of the pipes is avoided, ensuring reliable connection of the inlet pipe to the peristaltic pump and solution bottle. Of course, the inlet pipe can have a fixed length, and the height can be adjusted to match solution bottles of different heights. In addition, height adjustment can adapt to diverse process layouts, improving platform compatibility.

[0020] In some alternative embodiments, the limiting platform has a recessed limiting cavity.

[0021] Beneficial effects: The limiting cavity helps guide the pump body to be placed accurately, quickly position and assemble, and reduce installation and debugging time; and the recessed limiting cavity can clamp the base of the peristaltic pump to resist the risk of displacement when the platform moves or the pump is vibrating.

[0022] In some optional embodiments, the height difference between the horizontal extension surface of the platform and the horizontal extension surface of the limiting platform is set to 25cm.

[0023] Beneficial effects: This design matches the natural hand height of the operator when standing, making it easier to pick up and put down solution bottles and peristaltic pumps, reducing bending over and fatigue.

[0024] In some optional embodiments, the base is provided with a plurality of rollers, which are configured as self-locking rollers.

[0025] Beneficial effects: The rollers facilitate cross-process transfer of the platform, making it flexible to use. The self-locking function ensures no accidental movement during liquid addition, guaranteeing safety. The solution addition platform combines the advantages of flexible movement with stable positioning.

[0026] In some alternative embodiments, the limiting bar is configured as a frame structure.

[0027] Beneficial effects: The frame surrounds the side area of ​​the solution bottle, which can effectively restrain and limit the solution bottle. The hollow frame reduces the total weight of the platform while ensuring strength. The lightweight structural design reduces manufacturing costs and also makes it easier for operators to observe the solution bottle in the loading rack. Attached Figure Description

[0028] To more clearly illustrate the specific embodiments of this utility model or the technical solutions in the prior art, the drawings used in the description of the specific embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are some embodiments of this utility model. For those skilled in the art, other drawings can be obtained from these drawings without creative effort.

[0029] Figure 1 This is a perspective view of the solution addition platform according to an embodiment of the present invention;

[0030] Figure 2 This is a side view of the solution addition platform according to an embodiment of the present invention;

[0031] Figure 3 This is a top view of the solution addition platform according to an embodiment of the present invention;

[0032] Figure 4 This is a rear view of the solution addition platform according to an embodiment of the present invention;

[0033] Figure 5 This is a schematic diagram illustrating the adjustable angle of the solution addition platform according to an embodiment of the present invention;

[0034] Figure 6 This is a schematic diagram of the adjustable column height in the solution addition platform according to an embodiment of the present invention.

[0035] Explanation of reference numerals in the attached figures:

[0036] 1. Base; 101. Platform; 102. Roller; 2. Support; 201. Column; 202. Limiting platform; 3. Loading frame; 301. Support plate; 302. Limiting rail; 303. Hinge shaft; 4. Pad; 5. Locking component. Detailed Implementation

[0037] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions of the embodiments of this utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this utility model, not all embodiments. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of this utility model.

[0038] Currently, traditional solution dispensing platforms place the peristaltic pump and the solution bottle adjacent to each other on the upper part of the platform, and the solution bottle lacks reasonable limiting means. In actual operation, users need to hold the solution bottle by hand to ensure the safety of the container, and in order to reduce the amount of medicine residue, the solution bottle is usually kept in an inclined position to ensure complete dispensing. This method increases the burden on the operator, and since the medicine is a corrosive and harmful substance to the human body, direct hand operation increases the safety risk.

[0039] This embodiment aims to provide a solution dispensing platform that solves the problems of inconvenient operation, high quality risk, and high personnel risk in the operation of existing solution dispensing platforms, so as to improve the efficiency and safety of solution dispensing.

[0040] The following is combined Figures 1 to 6 The following describes embodiments of the present invention.

[0041] According to an embodiment of the present invention, a solution addition platform is provided, including a base 1, a support 2, and a loading rack 3; the base 1 includes a platform 101; the upper surface of the support 2 is adapted to install a peristaltic pump, and the support 2 is fixedly mounted on the platform 101; the loading rack 3 is mounted on the platform 101, and the loading rack 3 is open, the loading rack 3 includes a support plate 301 and a limiting rail 302, the support plate 301 is located in the bottom area of ​​the limiting rail 302, the limiting rail 302 is arranged around the support plate 301, and the support plate 301 and the limiting rail 302 together enclose a loading cavity, the loading cavity being adapted to place a solution bottle; the upper extension surface of the support plate 301 is set at an acute angle to the horizontal extension surface of the platform 101.

[0042] The solution addition platform provided in this embodiment consists of a base 1, a support 2, and a loading rack 3. The platform panel 101 of the base 1 provides support connection, the upper end face of the support 2 is equipped with a peristaltic pump, and the loading rack 3 is formed by an inclined support plate 301 and a limiting rail 302 to form a loading cavity for placing solution bottles.

[0043] The upper surface of the support plate 301 is set at an acute angle to the table panel 101, allowing the solution bottle to be placed at a natural tilt, achieving complete solution drainage without manual support and realizing automatic tilting and drainage, significantly reducing the operator's workload. Furthermore, the tilt angle promotes the concentration of solution within the bottle towards the bottle opening, reducing residue and meeting the requirements for efficient drug utilization. The limiting rail 302 forms a loading cavity around the support plate 301, effectively preventing the solution bottle from sliding or tipping over while tilted, serving as a safety limit and preventing operators from directly contacting corrosive solutions, thus improving safety.

[0044] See Figure 1The solution addition platform is mainly divided into two parts. The left part is the loading rack 3, which can be used to place 2L, 5L, 10L and 20L solution bottles when adding solution. For example, the loading rack 3 is used to place a 20L solution bottle and its size is L300×W435mm. The support 2 has the size to meet the placement requirements of the WF300-KZ15 peristaltic pump and its size is L250×W435mm.

[0045] In an exemplary implementation, see Figure 5 The loading frame 3 has a hinge shaft 303 at its bottom. The hinge shaft 303 is mounted on the platform 101. The hinge shaft 303 is located on the side of the support plate 301 that is inclined toward the platform 101. The support plate 301 is rotatably mounted with the platform 101 via the hinge shaft 303.

[0046] In this embodiment, the loading frame 3 is rotatably connected to the platform panel 101 via the hinge shaft 303; this allows the support plate 301 to rotate around the hinge shaft 303, making the angle flexibly adjustable to adapt to different specifications of solution bottles or residue control requirements, such as high-viscosity solutions requiring a larger tilt angle; users can quickly adjust the tilt angle by rotation without replacing parts, making operation convenient and improving the platform's versatility and efficiency.

[0047] In a specific structural embodiment, a mounting groove is provided on the table panel 101 to fix and assemble the hinge shaft 303; the support plate 301 is rotatably sleeved on the hinge shaft 303, and the support plate 301 is slidably connected to the mounting groove.

[0048] In a further implementation, see Figure 5 The solution addition platform also includes a pad 4, which is disposed between the support plate 301 and the platform 101. The pad 4 is adjustable on the platform 101 to adjust the angle between the extended surface of the support plate 301 and the extended surface of the platform 101. The pad 4 can be configured with a triangular cross-section, with its upper surface in frictional contact with the support plate 301 and its lower surface in frictional contact with the platform 101, ensuring effective support for the tilt angle of the support plate 301.

[0049] In this embodiment, the pad 4 is placed between the support plate 301 and the table panel 101, and its height can be adjusted to change the tilt angle. The tilt angle can be adjusted by adjusting the contact thickness between the pad 4 and the support plate 301, ensuring that all kinds of solutions can be completely discharged. In addition, the pad 4 provides rigid support to avoid the swaying risk that may exist in the hinged structure, improve the structural stability, and is suitable for high-precision liquid addition scenarios.

[0050] In some embodiments, a slider is fixedly installed at the bottom of the pad 4, and a slide rail is installed at the upper end of the table panel 101. The slide rail can extend from one side of the table panel 101 to the other side, and the extension direction of the slide rail is perpendicular to the hinge shaft 303. The tilt angle of the pad 4 on the support plate 301 can be adjusted by the sliding connection between the slider and the slide rail.

[0051] In some embodiments, the extension surface of the support plate 301 is set at an angle of 10° to 60° with the horizontal extension surface of the tabletop 101; as a preferred embodiment, the extension surface of the support plate 301 is set at an angle of 15°, 20° or 30° with the horizontal extension surface of the tabletop 101.

[0052] The solution addition platform provided in this embodiment improves operational convenience. Specifically, by placing the solution bottle in the tilted loading rack 3 on the left and the peristaltic pump on the limiting platform 202 on the right, the operator no longer needs to hold the solution bottle to ensure container safety throughout the transfer of small molecule solutions, nor does the operator need to hold and tilt the solution bottle to ensure complete transfer in the later stages of solution transfer. The operator only needs to focus on the operation of the peristaltic pump, greatly improving the convenience and efficiency of operation.

[0053] The solution dispensing platform provided in this embodiment can reduce quality risks. Specifically, the loading rack 3 forms an outer protective layer to prevent solution bottles from tipping over and breaking due to accidental contact, misoperation, or fatigue, which could lead to spillage of small molecule solutions and cause serious production and delivery losses and environmental pollution. The tilt design of the support plate 301 also prevents manual tilting of the solution bottle, which would result in a small bottom support contact area and increase the risk of bottle tipping and breakage.

[0054] The solution addition platform provided in this embodiment can reduce the risk of harm to personnel's health, reduce the intensity and fatigue of operators, reduce the probability of operational errors, effectively prevent leakage of small molecule solutions, and also protect the health of operators.

[0055] In other embodiments, the support plate 301 is fixedly disposed with the table panel 101, and the limiting rail 302 is fixedly disposed with the support 2. Fixing the support plate 301 to the table panel 101 and the limiting rail 302 to the support 2 fixes the loading frame 3 in a fixed position. The support plate 301 has a fixed tilt angle. This fixing method makes the structure robust and durable, reduces the failure rate, and is suitable for long-term, high-frequency use environments. Furthermore, it simplifies the manufacturing process, optimizes manufacturing costs, and is more suitable for standardized mass production.

[0056] In some implementations, see Figure 4The base 1 is equipped with several rollers 102 at its bottom, and the rollers 102 are self-locking rollers. The rollers 102 facilitate the transfer of the platform across processes, are flexible in use, and the self-locking function ensures that there is no accidental movement during liquid addition, thus ensuring safety; the solution addition platform combines the advantages of flexible movement and stable positioning.

[0057] The solution addition platform provided in this embodiment consists of a movable base 1, a support 2, and a loading frame 3. It has a simple structure and is easy to operate.

[0058] In some implementations, see Figure 2 and Figure 3 The support 2 includes columns 201 and limiting platforms 202. At least three columns 201 are provided, and the limiting platforms 202 are fixed to the upper ends of all columns 201. The support 2 consists of three or more columns 201 and limiting platforms 202 fixed to the tops of all columns 201. By distributing the load across multiple columns 201, the vibration of the peristaltic pump prevents the solution bottle from shaking, thus improving stability during operation. The limiting platforms 202 fix the position of the peristaltic pump, ensuring reliable connection between the inlet pipe and the solution bottle and avoiding the risk of pipe detachment.

[0059] In some implementations, see Figure 3 The limiting platform 202 has a recessed limiting cavity. The limiting cavity helps guide the pump body to be placed accurately, quickly positioned and assembled, reducing installation and debugging time; and the recessed limiting cavity can also lock the peristaltic pump base, resisting the risk of displacement during working vibration or platform movement.

[0060] In some embodiments, the height difference between the horizontal extension surface of the platform 101 and the horizontal extension surface of the limiting platform 202 is set to 25cm. This setting matches the natural hand height of the operator when standing, making it easier to pick up and put down solution bottles and peristaltic pumps, reducing bending over and fatigue.

[0061] In some embodiments, the limiting bar 302 is configured as a frame structure. The frame surrounds the side area of ​​the solution bottle, which can effectively restrain and limit the solution bottle. The hollow frame reduces the overall weight of the platform while ensuring strength. The lightweight design reduces manufacturing costs and also makes it easier for operators to observe the solution bottle inside the loading rack 3.

[0062] In a further implementation, see Figure 6 The column 201 is configured as a telescopic joint structure. The solution adding platform also includes a locking component 5, which is threaded onto the column 201 to lock the telescopic length of the column 201. The bottom end of the column 201 is fixed to the platform panel 101, and the telescopic end of the column 201 is fixedly connected to the limiting platform 202.

[0063] In this embodiment, the column 201 adopts a telescopic joint structure, and the telescopic height of the column 201 is locked by the locking member 5. This design is conducive to the adaptive adjustment of the height of the limiting platform 202. By adjusting the telescopic length of the column 201 to match different lengths of inlet pipes, the pipe bending or pulling is avoided, and the inlet pipe is reliably connected to the peristaltic pump and solution bottle. Of course, the inlet pipe can have a fixed length, and the height can be adjusted to match solution bottles of different heights. In addition, the height adjustment can adapt to diverse process layouts and improve platform compatibility.

[0064] In a specific structural implementation, four columns 201 are provided, each of which adopts a telescopic joint structure, and each of the four columns 201 is provided with a locking element 5; of course, a locking element 5 can also be provided on each of the two columns 201 on opposite sides.

[0065] In a specific implementation, the locking element 5 is a bolt or screw, and the column 201 is provided with a threaded hole. The locking end of the locking element 5 passes through the threaded hole to fix the telescopic end of the column 201.

[0066] In the above description, the solution bottle is referred to as a solution medicine bottle, such as a blue-capped glass bottle, which is suitable for storing small molecule solutions.

[0067] Although embodiments of the present invention have been described in conjunction with the accompanying drawings, those skilled in the art can make various modifications and variations without departing from the spirit and scope of the present invention, and such modifications and variations all fall within the scope defined by the appended claims.

Claims

1. A solution dosing platform, characterized in that, include: The base (1) includes a platform (101); Support (2), the upper end face of which is suitable for mounting a peristaltic pump, the support (2) is fixedly mounted on the table panel (101); A loading rack (3) is disposed on the table panel (101). The loading rack (3) is open. The loading rack (3) includes a support plate (301) and a limiting rail (302). The support plate (301) is disposed in the bottom area of ​​the limiting rail (302). The limiting rail (302) is disposed around the support plate (301). The support plate (301) and the limiting rail (302) together form a loading cavity, which is suitable for placing solution bottles. The upper extension surface of the support plate (301) is set at an acute angle of 10°-60° with the horizontal extension surface of the table panel (101).

2. The solution addition platform according to claim 1, characterized in that, The loading frame (3) is provided with a hinge shaft (303) at the bottom. The hinge shaft (303) is mounted on the platform (101). The hinge shaft (303) is located on the side of the support plate (301) that is inclined toward the platform (101). The support plate (301) is rotatably connected to the platform (101) through the hinge shaft (303).

3. The solution addition platform according to claim 2, characterized in that, The solution addition platform also includes a pad (4), which is disposed between the support plate (301) and the platform (101). The pad (4) is adjustablely disposed on the platform (101) to adjust the angle between the extension surface of the support plate (301) and the extension surface of the platform (101).

4. The solution addition platform according to claim 1, characterized in that, The support plate (301) is fixedly disposed with the tabletop (101), and the limiting rail (302) is fixedly disposed with the support (2).

5. The solution addition platform according to any one of claims 1-4, characterized in that, The support (2) includes a column (201) and a limiting platform (202). There are at least three columns (201), and the limiting platform (202) is fixed to the upper end of all the columns (201).

6. The solution addition platform according to claim 5, characterized in that, The column (201) is configured as a telescopic joint structure, and the solution addition platform also includes a locking member (5), which is threadedly connected to the column (201) to lock the telescopic length of the column (201).

7. The solution addition platform according to claim 5, characterized in that, The limiting platform (202) has a recessed limiting cavity.

8. The solution addition platform according to claim 5, characterized in that, The height difference between the horizontal extension surface of the platform (101) and the horizontal extension surface of the limiting platform (202) is set to 25cm.

9. The solution addition platform according to any one of claims 1-4, characterized in that, The base (1) is provided with a number of rollers (102) at its bottom, and the rollers (102) are configured as self-locking rollers.

10. The solution addition platform according to any one of claims 1-4, characterized in that, The limiting bar (302) is configured as a frame structure.