Anti-spill device for acid liquid agitation purification

By designing a stirring and purification device to prevent overflow of acidic liquids, and utilizing a combination of sealing cloth and sealing box, the problem of equipment corrosion and personnel health hazards caused by acid gas overflow is solved, and a safe and reliable stirring process is achieved.

CN224358425UActive Publication Date: 2026-06-16HUBEI CHANGCHEN LITHIUM ENERGY CYCLE TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HUBEI CHANGCHEN LITHIUM ENERGY CYCLE TECH CO LTD
Filing Date
2025-07-17
Publication Date
2026-06-16

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  • Figure CN224358425U_ABST
    Figure CN224358425U_ABST
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Abstract

The utility model provides a device for acid liquid stirring purification anti -spill, including support and sealed box, is equipped with lifting horizontal shift device on the support, is equipped with stirring motor on lifting horizontal shift device, is equipped with coupling on stirring motor bottom, is equipped with open and close sealed cloth on sealed box, the coupling shell is arc structure, sealed cloth top bears on the shell of coupling, sealed box installs in the reaction chamber top. The whole structure is sealed, can be reused, simple operation, the whole structure can be sealed with sealed box, can effectively prevent the overflow of acid gas, avoid the corrosion of the overflowed acid gas to metal parts, thereby lead to the surface rust, thin, even the phenomenon of hole, leakage occurs. The whole structure can avoid the long time overflow of acid gas to form the phenomenon of air pollution, avoid the risk phenomenon of acid gas damage staff and increase operation failure to occur, have greater popularization value.
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Description

Technical Field

[0001] This utility model relates to the field of acidic liquid production, and in particular to a device for stirring, purifying, and preventing overflow of acidic liquids. Background Technology

[0002] The purification of acidic liquids often depends on the differences in the physical or chemical properties of the components in the system. Without stirring, the liquid is prone to localized inhomogeneity due to gravity, temperature gradients, or chemical reactions. Localized areas may become supersaturated due to rapid cooling, causing impurities to be encapsulated by crystals. Stirring ensures thorough mixing of the acidic aqueous and organic phases, allowing impurities to be transferred more efficiently from the acidic phase to the extraction phase.

[0003] During the purification and stirring process of acidic liquids, a small amount of acidic gas may escape. This acidic gas is corrosive and can react chemically with the metal parts of the equipment, causing surface corrosion, thinning, and even the appearance of holes and leaks. Acidic gases can also corrode circuit interfaces or electronic components, leading to decreased equipment accuracy, frequent malfunctions, and even shutdowns. Direct release of acidic gases into the air causes air pollution. Furthermore, the irritant or toxic nature of these gases can cause respiratory and physical harm to operators if inhaled. The pungent odor also affects operator comfort, increases the risk of operational errors, and makes the environment unsuitable for long-term work. Utility Model Content

[0004] This utility model provides an overflow prevention device for stirring and purifying acidic liquids, which solves the problem that a small amount of acidic gas overflows during the purification process of acidic liquids. Acidic gas is corrosive and has a certain impact on production equipment. At the same time, acidic gas is irritating or toxic, which can harm the health of operators and easily increase the risk of operational errors.

[0005] To solve the above-mentioned technical problems, the technical solution adopted by this utility model is: a device for preventing overflow during stirring and purification of acidic liquids, including a support and a sealed box. The support is equipped with a lifting and traversing device, and the lifting and traversing device is equipped with a stirring motor. A coupling is provided at the bottom of the stirring motor. The sealed box is equipped with an opening and closing sealing cloth. The outer shell of the coupling has an arc-shaped structure. The top of the sealing cloth abuts against the outer shell of the coupling. The sealed box is installed on the top of the reaction chamber.

[0006] In the preferred embodiment, a transverse motor is provided on one side of the support, a first lead screw is provided at the output end of the transverse motor, a sliding seat is provided on the first lead screw, a U-shaped frame is provided on the sliding seat, and a lifting motor is provided at the top of the U-shaped frame.

[0007] In the preferred embodiment, the first lead screw is threadedly connected to the sliding seat, the U-shaped frame is provided with a sliding lifting seat, the output end of the lifting motor is provided with a second lead screw, the second lead screw is threadedly connected to the lifting seat, and the stirring motor is installed on the lifting seat.

[0008] In the preferred embodiment, a reducer is provided at the bottom of the stirring motor, a coupling is provided at the bottom of the reducer, and a stirring disc is provided at the bottom of the coupling.

[0009] In a preferred embodiment, the sealed box includes two hollow half-boxes, one half-box is provided with a rotating seat, and the other half-box is provided with a rotating shaft, which is rotatably connected to the rotating seat.

[0010] In the preferred embodiment, the top of the half-box is provided with a semi-circular hole, the half-box is provided with a semi-circular annular groove, and a semi-circular side groove is provided on one side of the semi-circular annular groove.

[0011] In a preferred embodiment, the sealing cloth includes an arc-shaped cloth with an elastic band at the top and multiple side rods at the bottom, with a slider at one end of each side rod.

[0012] In the preferred embodiment, the arc-shaped cloth is provided with multiple transparent soft plates, and magnetic strips are provided on both sides of the arc-shaped cloth. The side rod passes through the semi-circular side groove, and the slider slides against the semi-circular groove.

[0013] When the sealing cloth is used for sealing, the two magnetic strips adhere together.

[0014] In the preferred embodiment, the top of the reaction chamber is equipped with a sealing cover.

[0015] The beneficial effects of this invention are as follows: The sealed box is moved to the top of the reaction chamber, and the two half-boxes are rotated to bring them together, sealing the chamber. The sealing cloth at the top of the sealed box is rotated, causing multiple sliding balls to slide in the semi-circular groove, thus bringing the magnetic strips on both sides of the sealing cloth together. Simultaneously, the elastic band at the top of the sealing cloth abuts against the housing of the coupling, sealing the top of the sealing cloth with the coupling and the bottom of the sealing cloth with the sealed box. The overall structure forms a sealed structure. A stirring motor is driven to stir the acidic liquid in the reaction chamber. After stirring is complete, the sealing cloth is opened, the sealed box is removed, and the stirring plate is moved away using a lifting and traversing device. The sealing cover is then closed, and stirring continues in the next reaction chamber.

[0016] The overall structure is tightly sealed, and the sealing cloth and sealing box are highly adaptable. The two open half-boxes can be reused simply by moving them to the top of the reaction chamber to be stirred. The sealing cloth and sealing box are easy to operate and highly practical. The sealing cloth is foldable, and the top of the sealing cloth can be sealed with the coupling, while the bottom of the sealing cloth can be sealed with the sealing box. This effectively prevents the leakage of acidic gases and avoids the leakage of acidic gases from corroding metal parts, which could lead to rust, thinning, or even holes and leaks on the surface of the equipment.

[0017] The overall structure can prevent acidic gases from escaping for extended periods and being directly released into the air, thus avoiding air pollution. It also prevents acidic gases from injuring workers and increasing the risk of operational errors, making it highly valuable for widespread application. Attached Figure Description

[0018] The present invention will be further described below with reference to the accompanying drawings and embodiments;

[0019] Figure 1 This is a front view of the overall structure of this utility model;

[0020] Figure 2 This is a utility model Figure 1 A magnified view of A in the middle;

[0021] Figure 3 This is an axial view of the sealing box and sealing cloth of this utility model;

[0022] Figure 4 This is an axonometric view of the sealing box and sealing cloth of this utility model from another perspective;

[0023] Figure 5 This is an exploded view of the sealed box and sealing cloth of this utility model when opened;

[0024] Figure 6 This is an axial view of the sealing cloth of this utility model;

[0025] Figure 7 This is a cross-sectional view of the reaction chamber and sealing cap of this utility model;

[0026] In the diagram: 1. Support frame; 2. Lifting and traversing device; 201. First lead screw; 202. Traversing motor; 203. Sliding seat; 204. Second lead screw; 205. U-shaped frame; 206. Lifting seat; 207. Lifting motor; 3. Stirring motor; 4. Stirring pan; 5. Sealing box; 501. Half box; 502. Rotating seat; 503. Rotating shaft; 504. Semicircular hole; 505. Semicircular annular groove; 506. Semicircular side groove; 6. Sealing cloth; 601. Arc-shaped cloth; 602. Elastic rubber band; 603. Magnetic strip; 604. Transparent soft plate; 605. Side rod; 606. Sliding ball; 7. Reaction chamber; 8. Sealing cover; 9. Reducer; 10. Coupling. Detailed Implementation

[0027] Example 1:

[0028] like Figure 1-7The apparatus for stirring, purifying, and preventing overflow of acidic liquids includes a support 1 and a sealed box 5. The support 1 is equipped with a lifting and traversing device 2, which in turn is equipped with a stirring motor 3. A coupling 10 is located at the bottom of the stirring motor 3. The sealed box 5 is equipped with an opening and closing sealing cloth 6. The outer shell of the coupling 10 has an arc-shaped structure, and the top of the sealing cloth 6 rests against the outer shell of the coupling 10. The sealed box 5 is installed on top of the reaction chamber 7. With this structure, when it is necessary to stir the acidic liquid in a particular reaction chamber 7, the sealing cover 8 at the top of the reaction chamber 7 is opened, driving the traversing motor 202 of the lifting and traversing device 2 to move the sliding seat 203 horizontally, and driving the lifting motor 207 of the lifting and traversing device 2 to raise and lower the stirring motor 3 and the stirring plate 4, allowing the stirring plate 4 to extend into the opened reaction chamber 7.

[0029] Move the sealed box 5 to the top of the reaction chamber 7, rotate the two half-boxes 501 so that they abut together, sealing the box 5. Rotate the sealing cloth 6 on top of the sealed box 5 so that multiple sliding balls 606 slide in the semi-circular groove 505, causing the magnetic strips 603 on both sides of the sealing cloth 6 to adhere together. At the same time, the elastic rubber band 602 on the top of the sealing cloth 6 abuts against the housing of the coupling 10, sealing the top of the sealing cloth 6 with the coupling 10 and the bottom of the sealing cloth 6 with the sealed box 5. The overall structure forms a sealed structure. Drive the stirring motor 3 to stir the acidic liquid in the reaction chamber 7 with the stirring plate 4. After stirring is completed, open the sealing cloth 6, remove the sealed box 5, and simultaneously remove the stirring plate 4 via the lifting and traversing device 2. Cover with the sealing cover 8 and continue stirring for the next reaction chamber 7.

[0030] The overall structure is tightly sealed. The sealing cloth 6 and the sealing box 5 are highly adaptable. They can be reused simply by moving the two open half-boxes 501 to the top of the reaction chamber 7 to be stirred. The sealing cloth 6 and the sealing box 5 are easy to operate and highly practical. The sealing cloth 6 is foldable. The top of the sealing cloth 6 can be sealed with the coupling 10, and the bottom of the sealing cloth 6 can be sealed with the sealing box 5. This can effectively prevent the leakage of acidic gases and avoid the leakage of acidic gases from corroding metal parts, thereby preventing the equipment surface from rusting, thinning, or even developing holes and leaks.

[0031] The overall structure can prevent acidic gases from escaping for extended periods and being directly released into the air, thus avoiding air pollution. It also prevents acidic gases from injuring workers and increasing the risk of operational errors.

[0032] In a preferred embodiment, a transverse motor 202 is provided on one side of the support 1. A first lead screw 201 is provided at the output end of the transverse motor 202. A sliding seat 203 is provided on the first lead screw 201. A U-shaped frame 205 is provided on the sliding seat 203. A lifting motor 207 is provided at the top of the U-shaped frame 205. With this structure, the first lead screw 201 is rotatably connected to the support 1, and the sliding seat 203 is slidably connected to the support 1. The support 1 has a U-shaped groove, and the sliding seat 203 slides against the groove on the support 1.

[0033] In the preferred embodiment, the first lead screw 201 is threadedly connected to the sliding seat 203, the U-shaped frame 205 is provided with a sliding lifting seat 206, the output end of the lifting motor 207 is provided with a second lead screw 204, the second lead screw 204 is threadedly connected to the lifting seat 206, and the stirring motor 3 is mounted on the lifting seat 206. With this structure, when it is necessary to stir the acidic liquid in a certain reaction chamber 7, the sealing cover 8 at the top of the reaction chamber 7 is opened, the traverse motor 202 of the lifting and traverse device 2 is driven to rotate the first lead screw 201, causing the sliding seat 203 to move horizontally, the lifting motor 207 of the lifting and traverse device 2 is driven to rotate the second lead screw 204, causing the lifting seat 206 to rise and fall, causing the stirring motor 3 and the stirring plate 4 to rise and fall, so that the stirring plate 4 extends into the opened reaction chamber 7.

[0034] In a preferred embodiment, a reducer 9 is provided at the bottom of the stirring motor 3, a coupling 10 is provided at the bottom of the reducer 9, and a stirring disc 4 is provided at the bottom of the coupling 10. With this structure, the stirring disc 4 stirs in the reaction chamber 7, and the outer shell of the coupling 10 is a frustum structure, so that the outer surface of the outer shell of the coupling 10 is an arc structure, so that the elastic rubber band 602 at the top of the sealing cloth 6 can abut against the outer shell of the coupling 10.

[0035] In a preferred embodiment, the sealed box 5 comprises two hollow half-boxes 501, one half-box 501 having a rotating seat 502, and the other half-box 501 having a rotating shaft 503, the rotating shaft 503 being rotatably connected to the rotating seat 502. With this structure, rotating one half-box 501 causes it to rotate relative to the other half-box 501, thereby sealing the two half-boxes 501 into a single unit.

[0036] In the preferred embodiment, the top of the half-box 501 is provided with a semi-circular hole 504, the half-box 501 is provided with a semi-circular annular groove 505, and a semi-circular side groove 506 is provided on one side of the semi-circular annular groove 505. With this structure, the bottom of the sealing cloth 6 abuts against the semi-circular hole 504.

[0037] In a preferred embodiment, the sealing cloth 6 includes an arc-shaped cloth 601, with an elastic band 602 at the top and multiple side rods 605 at the bottom. Each side rod 605 has a sliding ball 606 at one end. With this structure, rotating the two half-boxes 501 causes them to abut together, sealing the sealing box 5. Rotating the sealing cloth 6 at the top of the sealing box 5 causes the multiple sliding balls 606 to slide in the semi-circular groove 505, causing the magnetic strips 603 on both sides of the sealing cloth 6 to adhere together. Simultaneously, the elastic band 602 at the top of the sealing cloth 6 abuts against the outer shell of the coupling 10, sealing the top of the sealing cloth 6 with the coupling 10 and the bottom of the sealing cloth 6 with the sealing box 5. The overall structure forms a sealed structure.

[0038] In the preferred embodiment, the arc-shaped cloth 601 is provided with a plurality of transparent soft plates 604, magnetic strips 603 are provided on both sides of the arc-shaped cloth 601, the side rod 605 passes through the semi-circular side groove 506, and the slider 606 slides against the semi-circular groove 505.

[0039] When the sealing cloth 6 is sealed, the two magnetic strips 603 are attached together. This structure allows the curved cloth 601 to be folded. The transparent flexible plate 604 is made of polyvinyl chloride or polycarbonate to ensure good transparency, allowing personnel to observe the stirring process inside the reaction chamber 7.

[0040] In a preferred embodiment, the top of the reaction chamber 7 is provided with a sealing cover 8. With this structure, there are multiple reaction chambers 7, each of which is equipped with a sealing cover 8. When it is necessary to stir the liquid in a certain reaction chamber 7, the sealing cover 8 on the top of the reaction chamber 7 is opened, the stirring plate 4 is inserted into the reaction chamber 7, and then a sealing box 5 and a sealing cloth 6 are installed on its top.

[0041] The above embodiments are merely preferred technical solutions of this utility model and should not be considered as limitations on this utility model. The protection scope of this utility model should be the technical solution described in the claims, including equivalent substitutions of the technical features described in the claims. That is, equivalent substitutions and improvements within this scope are also within the protection scope of this utility model.

Claims

1. A device for stirring, purifying, and preventing overflow of acidic liquids, characterized in that: Includes a support (1) and a sealing box (5). The support (1) is equipped with a lifting and traversing device (2), and the lifting and traversing device (2) is equipped with a stirring motor (3). The bottom of the stirring motor (3) is equipped with a coupling (10). The sealing box (5) is equipped with an opening and closing sealing cloth (6). The outer shell of the coupling (10) is an arc-shaped structure. The top of the sealing cloth (6) abuts against the outer shell of the coupling (10). The sealing box (5) is installed on the top of the reaction chamber (7).

2. The device for stirring, purifying, and preventing overflow of acidic liquids according to claim 1, characterized in that: A transverse motor (202) is provided on one side of the bracket (1). A first lead screw (201) is provided at the output end of the transverse motor (202). A sliding seat (203) is provided on the first lead screw (201). A U-shaped frame (205) is provided on the sliding seat (203). A lifting motor (207) is provided at the top of the U-shaped frame (205).

3. The device for stirring and purifying acidic liquids and preventing overflow according to claim 2, characterized in that: The first lead screw (201) is threadedly connected to the sliding seat (203). The U-shaped frame (205) is provided with a sliding lifting seat (206). The output end of the lifting motor (207) is provided with a second lead screw (204). The second lead screw (204) is threadedly connected to the lifting seat (206). The stirring motor (3) is installed on the lifting seat (206).

4. The device for stirring, purifying, and preventing overflow of acidic liquids according to claim 1, characterized in that: The bottom of the stirring motor (3) is equipped with a reducer (9), the bottom of the reducer (9) is equipped with a coupling (10), and the bottom of the coupling (10) is equipped with a stirring plate (4).

5. The device for stirring, purifying, and preventing overflow of acidic liquids according to claim 1, characterized in that: The sealed box (5) includes two hollow half-boxes (501), one half-box (501) is provided with a rotating seat (502), and the other half-box (501) is provided with a rotating shaft (503), which is rotatably connected to the rotating seat (502).

6. The device for stirring, purifying, and preventing overflow of acidic liquids according to claim 5, characterized in that: The top of the half-box (501) is provided with a semi-circular hole (504), the half-box (501) is provided with a semi-circular annular groove (505), and a semi-circular side groove (506) is provided on one side of the semi-circular annular groove (505).

7. The device for stirring, purifying, and preventing overflow of acidic liquids according to claim 1, characterized in that: The sealing cloth (6) includes an arc-shaped cloth (601), the top of the arc-shaped cloth (601) is provided with an elastic rubber band (602), the bottom of the arc-shaped cloth (601) is provided with multiple side rods (605), and one end of the side rod (605) is provided with a slider (606).

8. The device for stirring, purifying, and preventing overflow of acidic liquids according to claim 7, characterized in that: Multiple transparent soft plates (604) are provided on the arc-shaped cloth (601). Magnetic strips (603) are provided on both sides of the arc-shaped cloth (601). The side rod (605) passes through the semi-circular side groove (506). The slider (606) slides against the semi-circular groove (505). When the sealing cloth (6) is sealed, the two magnetic strips (603) are attached together.

9. The device for stirring, purifying, and preventing overflow of acidic liquids according to claim 1, characterized in that: The top of the reaction chamber (7) is equipped with a sealing cover (8).