A dosing device for a suspension concentrate

By designing a limiting mechanism, a hydraulic rod drives an L-shaped rod slide column to advance a U-shaped sliding sleeve, causing the clamping plate to automatically approach and limit the filling bottle. This solves the problem of time-consuming and laborious manual twisting of the threaded rod in existing technologies, and achieves highly efficient automation of filling bottle limiting.

CN224377655UActive Publication Date: 2026-06-19NANJING JACOB NEW MATERIAL TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
NANJING JACOB NEW MATERIAL TECH CO LTD
Filing Date
2025-08-05
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

In existing technologies, limiting the position of multiple filling bottles requires manual twisting of multiple threaded rods, which is time-consuming and labor-intensive, resulting in low limiting efficiency.

Method used

The system employs a limiting mechanism, including a hollow baffle, a slider, a U-shaped sleeve, a chute, a slide column, an L-shaped rod, a connecting block, and a propulsion assembly. The L-shaped rod slide column is driven by a hydraulic rod to advance the U-shaped sleeve, thereby automatically positioning the clamping plate close to the filling bottle and limiting its movement, thus avoiding the need for manual twisting of the threaded rod.

Benefits of technology

It improves the efficiency of bottle filling limit, is easy to operate, reduces manual operation, and increases the degree of automation of limit.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model belongs to quantitative device technical field especially a kind of quantitative device of suspending agent, including table body, injection component, multiple filling bottles and two clamps, injection component is fixedly arranged in the upper end of table body, multiple filling bottles are located above table body, two clamps are limited in the both sides of multiple filling bottles, the quantitative device further include two limiting mechanisms, two limiting mechanisms are symmetrically set on table body, the limiting mechanism is used to avoid needing artificial torsion multiple threaded rods to limit multiple filling bottles and effectively improve the efficiency of limiting, limiting mechanism includes: hollow baffle, two sliders, two U-shaped sliding sleeves, two No. One sliding slot, four slide columns, two bottom columns, two L-shaped rods, two No. Two sliding slots, connecting block and propulsion assembly;In the utility model, by starting limiting mechanism to limit filling bottle, can avoid artificial torsion multiple threaded rods to limit multiple filling bottles, while it can make operation more simple and improve the efficiency of limiting.
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Description

Technical Field

[0001] This utility model relates to the field of quantitative device technology, and in particular to a quantitative device for suspending agents. Background Technology

[0002] Chinese patent document CN220642555U discloses a quantitative device for suspending agents. This utility model provides a quantitative device for suspending agents, relating to the field of quantitative device technology. It includes a base, an L-shaped frame fixedly mounted on the upper surface of the base, a storage tank fixedly mounted on the upper surface of the L-shaped frame, a discharge pipe fixedly mounted on the storage tank, a solenoid valve mounted on the discharge pipe, a connecting pipe fixedly connected to the lower end of the discharge pipe, and several branch pipes fixedly connected to the lower surface of the connecting pipe. A moving mechanism is mounted on the L-shaped frame, including a drive motor. The connecting pipe is connected to the moving mechanism. Several weighing scales are mounted on the base directly below the branch pipes. Each weighing scale has a fixing mechanism and a filling bottle. A control switch and a controller are mounted on the front side of the L-shaped frame. The coordination of the weighing scales, solenoid valve, controller, and control switch facilitates control of the discharge amount, ensuring uniformity of the suspending agent in each filling bottle and avoiding dosage deviations.

[0003] However, the above technical solution has some drawbacks when used. When limiting multiple filling bottles, multiple threaded rods need to be manually twisted for limiting, which is time-consuming and labor-intensive, and the limiting efficiency is low. Utility Model Content

[0004] The purpose of this invention is to solve the shortcomings of the existing technology, which requires manual twisting of multiple threaded rods to limit the position of multiple filling bottles, which is time-consuming, labor-intensive, and has low limiting efficiency. Therefore, this invention proposes a quantitative device for suspending agents.

[0005] To achieve the above objectives, the present invention adopts the following technical solution:

[0006] A metering device for a suspension includes a table, an injection component, multiple filling bottles, and two clamps. The injection component is fixedly mounted on the upper end of the table, and the multiple filling bottles are located above the table. The two clamps limit the multiple filling bottles on both sides. The metering device also includes two limiting mechanisms symmetrically arranged on the table. These limiting mechanisms are used to avoid the need for manual twisting of multiple threaded rods to limit the multiple filling bottles and effectively improve the efficiency of limiting.

[0007] As a preferred embodiment of this utility model, the limiting mechanism includes: a hollow baffle, two sliders, two U-shaped sliding sleeves, two first sliding grooves, four sliding pillars, two bottom pillars, two L-shaped rods, two second sliding grooves, a connecting block, and a propulsion assembly;

[0008] The hollow baffle is fixedly connected to the table body. Two sliders are symmetrically fixedly connected to one side of the hollow baffle. Two U-shaped sleeves are slidably fitted onto the two sliders. Two No. 1 slide grooves are symmetrically opened on the two U-shaped sleeves. One end of the two bottom pillars is symmetrically fixedly connected to one side of the hollow baffle. The corners of the two L-shaped rods are rotatably connected to the other ends of the two bottom pillars. Two No. 2 slide grooves are symmetrically opened on the connecting block. Four slide pillars are fixedly connected to both ends of the two L-shaped rods. Two slide pillars on one L-shaped rod slide in the No. 1 and No. 2 slide grooves on the same side. The two ends of the two clamps are fixedly connected to the two U-shaped sleeves on the same side of the two limiting mechanisms.

[0009] Furthermore, by pushing the connecting block upwards and using the two sliding pins on one end of the two L-shaped rods to pull one end of the two L-shaped rods, while the corners of the two L-shaped rods rotate around the two bottom posts, and the two sliding pins on one end of the two L-shaped rods slide in the two No. 2 sliding grooves, the two sliding pins on the other end of the two L-shaped rods can be used to push the two U-shaped sleeves forward. This allows the two U-shaped sleeves to slide along the two sliders and move closer to each other. At the same time, the two sliding pins on the other end of the two L-shaped rods slide in the two No. 1 sliding grooves. The force of the two U-shaped sleeves moving closer together can be used to bring the two clamps closer together to limit the movement of multiple filling bottles. This avoids the need to manually twist multiple threaded rods to limit the movement of the filling bottles and effectively improves the efficiency of the limiting.

[0010] As a preferred embodiment of this utility model, the propulsion assembly includes: a hydraulic rod and a U-shaped rod;

[0011] The two ends of the hydraulic rod are fixedly connected to the bottom of the table and the inner wall of the U-shaped rod, respectively. The two ends of the U-shaped rod slide through the table, and the protruding ends of the two ends of the U-shaped rod slide through two hollow baffles and are fixedly connected to two connecting blocks.

[0012] Furthermore, by activating the hydraulic rod, the hydraulic rod retracts to pull the U-shaped rod, while the protruding ends of the U-shaped rod slide within two hollow baffles, thereby using the pulling force of the U-shaped rod to push the connecting block forward.

[0013] As a preferred embodiment of this utility model, multiple weighing scales are symmetrically arranged on the table, and multiple filling bottles are placed on the multiple weighing scales respectively, with graduated grooves opened on the filling bottles.

[0014] Furthermore, when injecting the suspending agent into the filling bottle, a weighing scale and a graduated groove can be used for precise metering, thereby enabling more accurate injection of the suspending agent.

[0015] As a preferred embodiment of this utility model, multiple grooves are provided on the side of the two clamps that are close to each other, and the grooves on the clamps fit the filling bottle.

[0016] Furthermore, when the filling bottle is positioned by the two clamps, the filling bottle is located in the grooves on the clamps, which can prevent the filling bottle from shifting during positioning.

[0017] As a preferred embodiment of this utility model, a limiting sleeve is fixedly connected to one side of the connecting block, and a sliding rod is vertically fixedly connected to the table body, with the limiting sleeve slidably fitted onto the sliding rod.

[0018] Furthermore, by pushing the connecting block forward, the limiting sleeve slides along the slide bar, thereby limiting the connection block. Beneficial effects

[0019] First, push the connecting block upwards and use the two sliding pins on one end of the two L-shaped rods to pull one end of the two L-shaped rods. Then, use the two sliding pins on the other end of the two L-shaped rods to push the two U-shaped sleeves forward. This allows the two U-shaped sleeves to slide along the two sliders and move closer to each other. The force of the two U-shaped sleeves moving closer together can then be used to bring the two clamps closer together to limit the movement of multiple bottles. This avoids the need to manually twist multiple threaded rods to limit the movement of the bottles and effectively improves the efficiency of the limiting mechanism.

[0020] In this invention, the limiting mechanism is activated to limit the filling bottles, which avoids manually twisting multiple threaded rods to limit multiple filling bottles, and at the same time makes the operation simpler and improves the efficiency of limiting. Attached Figure Description

[0021] Figure 1 This is a three-dimensional perspective view of the present invention.

[0022] Figure 2 This utility model proposes Figure 1 A partial schematic diagram;

[0023] Figure 3 This is a schematic diagram of the limiting mechanism proposed in this utility model;

[0024] Figure 4 This is a partial schematic diagram of the limiting mechanism proposed in this utility model.

[0025] In the diagram: 1. Table body; 2. Injection component; 3. Hollow baffle; 4. Hydraulic rod; 5. U-shaped rod; 6. Weighing scale; 7. Filling bottle; 8. Scale groove; 9. Slider; 10. U-shaped sliding sleeve; 11. No. 1 slide groove; 12. Sliding column; 13. Bottom column; 14. L-shaped rod; 15. No. 2 slide groove; 16. Connecting block; 17. Limiting sleeve; 18. Sliding rod; 19. Clamping plate. Detailed Implementation

[0026] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments.

[0027] Reference Figures 1-4 A metering device for a suspension includes a table 1, an injection component 2, multiple filling bottles 7, and two clamping plates 19. The injection component 2 is fixedly disposed on the upper end of the table 1, and the multiple filling bottles 7 are located above the table 1. The two clamping plates 19 limit the multiple filling bottles 7 on both sides. The metering device also includes two limiting mechanisms symmetrically disposed on the table 1. The limiting mechanisms are used to avoid the need for manual twisting of multiple threaded rods to limit the multiple filling bottles 7 and effectively improve the efficiency of limiting.

[0028] Using the above structure: To further solve the problem of time-consuming, labor-intensive, and inefficient operation when limiting multiple filling bottles by manually twisting multiple threaded rods, such as... Figure 2 , Figure 3 and Figure 4 As shown, firstly, the connecting block 16 is pushed up and the two sliding pins 12 on one end of the two L-shaped rods 14 are used to pull one end of the two L-shaped rods 14. Then, the two sliding pins 12 on the other end of the two L-shaped rods 14 can be used to push the two U-shaped sliding sleeves 10. In this way, the two U-shaped sliding sleeves 10 can slide along the two sliders 9 and move closer to each other. Then, the force of the two U-shaped sliding sleeves 10 moving closer to each other can be used to move the two clamps 19 closer to each other to limit the multiple filling bottles 7. This can avoid the need to manually twist multiple threaded rods to limit the filling bottles 7 and effectively improve the efficiency of limiting.

[0029] In this utility model, the limiting mechanism includes: a hollow baffle 3, two sliders 9, two U-shaped sliding sleeves 10, two first sliding grooves 11, four sliding pillars 12, two bottom pillars 13, two L-shaped rods 14, two second sliding grooves 15, a connecting block 16, and a propulsion assembly.

[0030] like Figure 1 , Figure 2 and Figure 4As shown, the hollow baffle 3 is fixedly connected to the table body 1. Two sliders 9 are symmetrically fixedly connected to one side of the hollow baffle 3. Two U-shaped sleeves 10 are slidably fitted onto the two sliders 9. Two first-order sliding grooves 11 are symmetrically opened on the two U-shaped sleeves 10. One end of two bottom posts 13 is symmetrically fixedly connected to one side of the hollow baffle 3. The corners of two L-shaped rods 14 are rotatably connected to the other ends of the two bottom posts 13. Two second-order sliding grooves 15 are symmetrically opened on the connecting block 16. Four sliding pillars 12 are fixedly connected to both ends of the two L-shaped rods 14. Two sliding pillars 12 on one L-shaped rod 14 slide in the first-order sliding groove 11 and the second-order sliding groove 15 on the same side. The two ends of two clamping plates 19 are fixedly connected to the two U-shaped sleeves 10 on the same side of the two limiting mechanisms. By pushing the connecting block 16 upward and using... Two sliding pins 12 on one end of the two L-shaped rods 14 pull on one end of the two L-shaped rods 14. At the same time, the corners of the two L-shaped rods 14 rotate around the two bottom pins 13. The two sliding pins 12 on one end of the two L-shaped rods 14 slide in the two second sliding grooves 15. Then, the two sliding pins 12 on the other end of the two L-shaped rods 14 can be used to push the two U-shaped sliding sleeves 10. This allows the two U-shaped sliding sleeves 10 to slide along the two sliders 9 and move closer to each other. At the same time, the two sliding pins 12 on the other end of the two L-shaped rods 14 slide in the two first sliding grooves 11. Then, the force of the two U-shaped sliding sleeves 10 moving closer together can be used to move the two clamps 19 closer together to limit the multiple filling bottles 7. This can avoid the need to manually twist multiple threaded rods to limit the filling bottles 7 and effectively improve the efficiency of limiting.

[0031] In this utility model, the propulsion assembly includes: a hydraulic rod 4 and a U-shaped rod 5;

[0032] like Figure 1 , Figure 2 and Figure 3 The two ends of the hydraulic rod 4 are fixedly connected to the bottom end of the table body 1 and the inner wall of the U-shaped rod 5, respectively. The two ends of the U-shaped rod 5 slide through the table body 1, and the protruding ends of the two ends of the U-shaped rod 5 slide through the two hollow baffles 3 and are fixedly connected to the two connecting blocks 16. By activating the hydraulic rod 4, the hydraulic rod 4 retracts to pull the U-shaped rod 5. At the same time, the protruding ends of the two ends of the U-shaped rod 5 slide in the two hollow baffles 3, so that the pulling force of the U-shaped rod 5 can be used to push the connecting blocks 16.

[0033] To more accurately inject the suspension into the filling bottle 7, such as Figure 1 and Figure 2As shown, multiple weighing scales 6 are symmetrically arranged on the table body 1, and multiple filling bottles 7 are placed on the multiple weighing scales 6 respectively. The filling bottles 7 are provided with scale grooves 8. When injecting suspending agent into the filling bottles 7, the weighing scales 6 and scale grooves 8 can be used to make precise quantitative measurements, so as to make the injection of suspending agent more accurate.

[0034] To prevent the filling bottle 7 from shifting during the limit switch operation, such as Figure 2 and Figure 3 As shown, the two clamping plates 19 are provided with multiple grooves on the side that is close to each other. The grooves on the clamping plates 19 fit with the filling bottle 7. When the filling bottle 7 is limited by the two clamping plates 19, the filling bottle 7 is located in the grooves on the clamping plates 19, so as to avoid the filling bottle 7 from shifting when it is limited.

[0035] To limit the movement of connecting block 16, such as Figure 1 and Figure 3 As shown, a limiting sleeve 17 is fixedly connected to one side of the connecting block 16, and a sliding rod 18 is vertically fixedly connected to the table body 1. The limiting sleeve 17 is slidably sleeved on the sliding rod 18. When the connecting block 16 is pushed forward, the limiting sleeve 17 slides along the sliding rod 18, thereby limiting the connecting block 16.

[0036] It should be noted that the specific models of injection component 2, hydraulic rod 4, and weighing scale 6 used are to be selected by those skilled in the art. Furthermore, the injection component 2, hydraulic rod 4, and weighing scale 6 mentioned above are all existing technologies and will not be elaborated upon in this solution.

[0037] The working principle of this utility model is as follows: First, multiple filling bottles 7 are placed on multiple weighing scales 6. The weighing scales 6 and graduated grooves 8 are used for precise metering. Then, the hydraulic rod 4 is activated, retracting to pull the U-shaped rod 5. Simultaneously, the protruding ends of the U-shaped rod 5 slide within two hollow baffles 3. This pulling force of the U-shaped rod 5 pushes the connecting block 16 forward, causing the two sliding columns 12 on one end of the two L-shaped rods 14 to pull on one end of the two L-shaped rods 14. At the same time, the limiting sleeve 17 slides along the sliding rod 18. The corners of the two L-shaped rods 14 rotate around the two bottom columns 13, and the two sliding columns 12 on one end of the two L-shaped rods 14... Each sliding column 12 slides within two second-order sliding grooves 15, thereby using the two sliding columns 12 at the other end of the two L-shaped rods 14 to advance the two U-shaped sliding sleeves 10. This allows the two U-shaped sliding sleeves 10 to slide along the two sliders 9 and move closer to each other. Simultaneously, the two sliding columns 12 at the other end of the two L-shaped rods 14 slide within two first-order sliding grooves 11, thereby using the force of the two U-shaped sliding sleeves 10 moving closer to each other to bring the two clamping plates 19 closer together to limit the multiple filling bottles 7. At the same time, the filling bottles 7 are located in the grooves on the clamping plates 19, thus avoiding the need for manual twisting of multiple threaded rods to limit the filling bottles 7 and effectively improving the efficiency of the limiting.

[0038] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the technical scope disclosed in the present utility model, based on the technical solution and the inventive concept of the present utility model, should be included within the protection scope of the present utility model.

Claims

1. A dosing device for a suspension agent, comprising a table body (1), an injection part (2), a plurality of filling bottles (7) and two clamping plates (19), the injection part (2) is fixedly arranged at the upper end of the table body (1), the plurality of filling bottles (7) are located above the table body (1), and the two clamping plates (19) are located at the two sides of the plurality of filling bottles (7), characterized in that, The quantitative device also includes two limiting mechanisms, which are symmetrically arranged on the table (1). These limiting mechanisms are used to avoid the need for manual twisting of multiple threaded rods to limit multiple filling bottles (7) and to effectively improve the efficiency of limiting.

2. The device for metering a suspending agent according to claim 1, characterized in that, The limiting mechanism includes: a hollow baffle (3), two sliders (9), two U-shaped sliding sleeves (10), two first-order sliding grooves (11), four sliding pillars (12), two bottom pillars (13), two L-shaped rods (14), two second-order sliding grooves (15), a connecting block (16), and a propulsion assembly; Hollow baffle (3) is fixedly connected to table body (1). Two sliders (9) are symmetrically fixedly connected to one side of hollow baffle (3). Two U-shaped sleeves (10) are slidably sleeved on the two sliders (9). Two first-order grooves (11) are symmetrically opened on the two U-shaped sleeves (10). One end of two bottom columns (13) is symmetrically fixedly connected to one side of hollow baffle (3). The corners of two L-shaped rods (14) are rotatably connected to the other end of the two bottom columns (13). Two second-order grooves (15) are symmetrically opened on connecting block (16). Four sliding columns (12) are fixedly connected to both ends of two L-shaped rods (14). Two sliding columns (12) on one L-shaped rod (14) slide in the first-order groove (11) and the second-order groove (15) on the same side. The two ends of two clamps (19) are fixedly connected to the two U-shaped sleeves (10) on the same side of the two limiting mechanisms.

3. The device for metering a suspending agent according to claim 2, characterized in that, The propulsion assembly includes: a hydraulic rod (4) and a U-shaped rod (5); The two ends of the hydraulic rod (4) are fixedly connected to the bottom end of the table body (1) and the inner wall of the U-shaped rod (5) respectively. The two ends of the U-shaped rod (5) slide through the table body (1), and the protruding ends of the two ends of the U-shaped rod (5) slide through the two hollow baffles (3) and are fixedly connected to the two connecting blocks (16).

4. The device for metering a suspending agent according to claim 1, characterized in that, Multiple weighing scales (6) are symmetrically arranged on the table (1), and multiple filling bottles (7) are placed on the multiple weighing scales (6).

5. The device for metering a suspending agent according to claim 1, characterized in that, The two clamps (19) are provided with multiple grooves on the side that is close to each other, and the grooves on the clamps (19) fit with the filling bottle (7).

6. The device for metering a suspending agent according to claim 5, characterized in that, The filling bottle (7) has a graduated groove (8).

7. The device for metering a suspending agent according to claim 3, characterized in that, A limiting sleeve (17) is fixedly connected to one side of the connecting block (16), and a sliding rod (18) is vertically fixedly connected to the table body (1). The limiting sleeve (17) is slidably sleeved on the sliding rod (18).