A stirring preparation device for corrosion-resistant water glass
By designing a mixing and preparation device with an adjustable stirring radius, the problems of low efficiency and material adhesion to the inner wall of traditional mixing devices have been solved, achieving efficient mixing and automatic cleaning, thereby improving product quality and equipment lifespan.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- FENGYANG CHANGLONG TECH MATERIALS CO LTD
- Filing Date
- 2025-05-09
- Publication Date
- 2026-06-09
AI Technical Summary
Traditional mixing devices have a fixed mixing radius, which cannot be flexibly adjusted, resulting in low mixing efficiency, insufficient material mixing, and material adhering to the inner wall of the tank, affecting product quality and equipment lifespan.
An adjustable stirring preparation device was designed. The device uses a hollow stirring shaft driven by a motor and a stirring assembly to work together. Combined with a scraper and spring structure, it automatically cleans the inner wall of the tank, thus achieving flexible adjustment of the stirring assembly and cleaning of the inner wall of the tank.
It improves mixing efficiency and uniformity, ensures thorough mixing of materials, prevents solidification of materials adhering to the inner wall of the tank, extends equipment service life, and enhances the applicability and production flexibility of the device.
Smart Images

Figure CN224331920U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of water glass stirring and preparation technology, specifically to a stirring and preparation device for corrosion-resistant water glass. Background Technology
[0002] In the production of water glass, the stirring process is crucial. As a widely used chemical raw material, the quality and performance of water glass are directly affected by the stirring effect. Traditional stirring equipment is usually relatively simple in structure, and it is difficult to ensure that the materials are fully mixed during the stirring process. As a result, the water glass produced has deficiencies in terms of component uniformity and performance stability, and cannot meet the strict quality requirements of different industrial fields.
[0003] Existing mixing devices have a fixed mixing radius when mixing corrosion-resistant water glass, which cannot be flexibly adjusted according to the production needs of different batches and outputs. This results in low mixing efficiency, and some materials cannot be fully mixed, affecting product quality. In addition, during the mixing process, materials are easily attached to the inner wall of the tank. If they are not cleaned in time, they will not only affect the uniformity of mixing, but may also cause the attached materials to solidify, corrode the tank, and shorten the service life of the equipment. Utility Model Content
[0004] To address the aforementioned problems, this invention provides a stirring and preparation device for corrosion-resistant water glass. This device features adjustable stirring radius, automatic cleaning of deposits on the inner wall of the tank, high stirring efficiency, and good quality, thus solving the problems of fixed stirring radius, material deposits on the inner wall of the tank affecting stirring and equipment lifespan, and insufficient material mixing in traditional stirring devices.
[0005] To achieve the above objectives, this utility model employs the following technical solution: a stirring and preparation device for corrosion-resistant water glass, comprising a tank body, a rectangular column fixedly mounted on the outer side of the tank body, a rectangular mounting hole on one side of the rectangular column, a hydraulic rod fixedly mounted inside the rectangular mounting hole, a support rod fixedly mounted at the output end of the hydraulic rod, a circular hole at the top of the support rod, a motor fixedly mounted at the top of the support rod, the output end of the motor passing through the circular hole, a hollow stirring shaft fixedly mounted at the output end of the motor, four movable holes symmetrically opened on the outer side of the hollow stirring shaft, a stirring component capable of changing the stirring radius provided on the outer side of the hollow stirring shaft, the movable holes cooperating with the stirring component, and an adjustment component provided inside the hollow stirring shaft.
[0006] As a preferred embodiment of this utility model, the stirring assembly includes a plurality of first connecting bases, which are symmetrically fixedly installed on the outside of a hollow stirring shaft. A rectangular groove is provided on the top of the first connecting base, and a first connecting rod is movably installed inside the rectangular groove via a round rod. A second connecting base is movably installed at the other end of the first connecting rod via a round rod. An mounting plate is fixedly installed on one side of the second connecting base. An adjusting base is movably installed inside the hollow stirring shaft, and a protrusion is fixedly installed on the outside of the adjusting base. The protrusion passes through a movable hole, and a second connecting rod is movably installed on the protrusion via a round rod. The other end of the second connecting rod is fixedly installed to the second connecting base via a round rod.
[0007] As a preferred embodiment of the present invention, the stirring assembly further includes a plurality of first mounting holes, wherein a connecting rod is movably mounted inside the first mounting hole, a scraper is fixedly mounted at one end of two of the connecting rods, a first spring is fixedly mounted on one side of the scraper, and the other end of the first spring is fixedly mounted to one side of the mounting plate.
[0008] As a preferred embodiment of this utility model, the adjustment assembly includes four second mounting holes, which are symmetrically opened on the outside of the hollow stirring shaft. An adjustment rod is movably installed inside the second mounting holes. One end of the adjustment rod has a mounting groove, and the inner side of the mounting groove has symmetrical limit grooves. A steel wire rope is fixedly installed on the outside of the adjustment rod, and the other end of the steel wire rope is fixedly installed to the top of the adjustment base.
[0009] As a preferred embodiment of this utility model, the adjusting assembly further includes a rotary rod, which is movably installed inside the mounting groove. A second spring is fixedly installed at one end of the rotary rod, and the other end of the second spring is fixedly installed to one side of the mounting groove. A bolt head is fixedly installed at the other end of the rotary rod, and several adjusting holes are provided on one side of the bolt head. A fixing rod is fixedly installed on the outside of the hollow stirring shaft, and the adjusting holes cooperate with the fixing rod. Limiting blocks are symmetrically fixedly installed on the outside of the rotary rod, and the limiting blocks cooperate with the limiting groove.
[0010] As a preferred embodiment of this utility model, a first limiting plate is fixedly installed at the other end of the connecting rod, a second limiting plate is fixedly installed at one end of the adjusting rod, and a drain pipe is fixedly installed at the bottom of the tank.
[0011] As a preferred technical solution of this utility model, the rectangular groove makes one side of the first connecting base have a U-shaped structure, which limits the first connecting rod and only allows the first connecting rod to rotate upward in one direction.
[0012] The beneficial effects of this utility model are as follows:
[0013] This invention utilizes a stirring assembly and a hollow stirring shaft working in tandem. Driven by a motor, all components work together to cause the mounting plate to move in a circular motion around the hollow stirring shaft. This significantly increases the mixing area of the materials, greatly improving stirring efficiency and uniformity, ensuring thorough mixing of the water glass raw materials, and guaranteeing product quality. Simultaneously, the scraper and first spring design in the stirring assembly automatically cleans deposits from the inner wall of the tank. When the scraper contacts condensate on the inner wall, the first spring compression acts as a buffer, preventing damage to the scraper. Furthermore, the spring's elasticity keeps the scraper in contact with the tank wall, continuously scraping away condensate, preventing material accumulation that could affect stirring uniformity and product quality, and preventing residual material from solidifying and corroding the tank, thus extending the equipment's service life.
[0014] In the adjustment assembly, the operator manually operates the bolt head to drive the rotating rod to rotate, thereby controlling the rotation of the adjustment rod to achieve the winding and unwinding of the wire rope and precisely adjust the position of the adjustment base inside the hollow stirring shaft. The adjustment base, through cooperation with other components of the stirring assembly, such as driving the second connecting rod to swing and pushing or pulling the second connecting base, moves the mounting plate closer to or further away from the hollow stirring shaft, thus flexibly changing the stirring radius. This allows the device to be adjusted according to the production needs of different batches and different outputs, enhancing the applicability of the device and improving the flexibility and efficiency of production. Attached Figure Description
[0015] Figure 1 This is a schematic diagram of the stirring and preparation device for corrosion-resistant water glass according to the present invention.
[0016] Figure 2 This is a schematic diagram of the rectangular column structure of this utility model;
[0017] Figure 3 This is a schematic diagram of the stirring assembly structure of this utility model;
[0018] Figure 4 This is a schematic diagram of the movable hole structure of this utility model;
[0019] Figure 5 This is a schematic diagram of the cross-sectional structure of the hollow stirring shaft of this utility model;
[0020] Figure 6 This is an enlarged structural schematic diagram of utility model A;
[0021] Figure 7 This is a cross-sectional structural diagram of a stirring and preparation device for corrosion-resistant water glass according to this utility model;
[0022] Figure 8 This is an enlarged structural schematic diagram of utility model B.
[0023] Reference numerals: 1. Tank body; 2. Rectangular column; 3. Rectangular mounting hole; 4. Hydraulic rod; 5. Support rod; 6. Round hole; 7. Motor; 8. Hollow stirring shaft; 9. Movable hole; 10. First connecting base; 11. First connecting rod; 12. Mounting plate; 13. Second connecting base; 14. Adjusting base; 15. Second connecting rod; 16. Steel wire rope; 17. Adjusting rod; 18. Mounting groove; 19. Second spring; 20. Limiting groove; 21. Rotary rod; 22. Bolt head; 23. Adjusting hole; 24. Fixing rod; 25. Connecting rod; 26. First spring; 27. Scraper. Detailed Implementation
[0024] The present invention will be further described below with reference to specific embodiments. However, those skilled in the art should understand that the detailed description given here with reference to the accompanying drawings is for better explanation. The structure of the present invention may exceed the limited embodiments described herein. Some equivalent alternatives or common means will not be described in detail here, but they still fall within the protection scope of this application.
[0025] Figures 1-8 This is the preferred embodiment of the present invention, which is described below in conjunction with the appendix. Figure 1 -Appendix Figure 8 The present invention will be further described below.
[0026] A stirring and preparation device for corrosion-resistant water glass includes a tank body 1. A rectangular column 2 is fixedly installed on the outside of the tank body 1. A rectangular mounting hole 3 is opened on one side of the rectangular column 2. A hydraulic rod 4 is fixedly installed inside the rectangular mounting hole 3. A support rod 5 is fixedly installed at the output end of the hydraulic rod 4. A circular hole 6 is opened at the top of the support rod 5. A motor 7 is fixedly installed at the top of the support rod 5. The output end of the motor 7 passes through the circular hole 6. A hollow stirring shaft 8 is fixedly installed at the output end of the motor 7. Four movable holes 9 are symmetrically opened on the outside of the hollow stirring shaft 8. A stirring component that can change the stirring radius is provided on the outside of the hollow stirring shaft 8. The movable holes 9 are used in conjunction with the stirring component. An adjustment component is provided inside the hollow stirring shaft 8.
[0027] In this embodiment, tank 1 serves as the container for the entire mixing and preparation process, providing space for the mixing of water glass raw materials. Rectangular columns 2 are securely installed on the outside of tank 1, providing a supporting foundation for subsequent components and ensuring the structural stability of the entire mixing device. Rectangular mounting holes 3 provide precise installation positioning for hydraulic rods 4. The hydraulic rods 4 extend and retract to push support rods 5 up and down, thereby adjusting the height of motor 7, hollow stirring shaft 8, and mixing components. During mixing, the height of motor 7, hollow stirring shaft 8, and mixing components is flexibly adjusted according to the material level to achieve the best mixing effect. The mixing components can be raised and suspended at the top of tank 1, allowing water glass residue on the mixing components to drip naturally into the tank 1 under gravity, effectively avoiding material waste and reducing subsequent cleaning work. Support rods 5 support motor 7, ensuring its stability during operation. Through connection with hydraulic rods 4, the... The height is now adjusted. The circular hole 6 provides a through channel for the output shaft of the motor 7. The motor 7, as a power source, outputs torque after being powered on, driving the hollow stirring shaft 8 to rotate at high speed. The hollow stirring shaft 8 rotates under the drive of the motor 7. The movable hole 9 on its outer side is used to cooperate with the stirring component to adjust the stirring radius. The adjusting base 14 is connected to other parts of the stirring component through the movable hole 9 and transmits power, thereby changing the position of the stirring component and changing the stirring radius. The stirring component, through its rotation in cooperation with the hollow stirring shaft 8, stirs the water glass raw material in the tank 1, making the raw material fully mixed, improving stirring efficiency and quality. The adjusting component is installed inside the hollow stirring shaft 8. Through the action of its own structure, such as the coordinated movement of the adjusting rod 17, the wire rope 16 and other components, it changes the position of the adjusting base 14, thereby adjusting the relative position of the stirring component and the hollow stirring shaft 8, realizing flexible adjustment of the stirring radius and enhancing the applicability of the device.
[0028] Specifically, the stirring assembly includes several first connecting bases 10, which are symmetrically fixedly installed on the outside of the hollow stirring shaft 8. A rectangular groove is provided on the top of the first connecting base 10, and a first connecting rod 11 is movably installed inside the rectangular groove via a round rod. A second connecting base 13 is movably installed at the other end of the first connecting rod 11 via a round rod. An mounting plate 12 is fixedly installed on one side of the second connecting base 13. An adjusting base 14 is movably installed inside the hollow stirring shaft 8. A protrusion is fixedly installed on the outside of the adjusting base 14, and the protrusion passes through the movable hole 9. A second connecting rod 15 is movably installed on the protrusion via a round rod. The other end of the second connecting rod 15 is fixedly installed to the second connecting base 13 via a round rod.
[0029] In this embodiment, a first connecting base 10 is provided, with a rectangular groove on its top providing installation space for the first connecting rod 11. The rectangular groove cooperates with the round rod, allowing the first connecting rod 11 to rotate flexibly while constraining its motion trajectory, ensuring the controllability and stability of the first connecting rod 11's movement, thereby maintaining the regularity of the stirring assembly's movement. The first connecting rod 11 serves as a transmission component connecting the first connecting base 10 and the second connecting base 13, transmitting the movement of the first connecting base 10 to the second connecting base 13, ensuring that the stirring assembly can adjust the stirring range as needed. The second connecting base 13 connects the first connecting rod 11 and the second connecting rod 15, and also fixes the mounting plate 12, playing a connecting role. Driven by the first connecting rod 11 and the second connecting rod 15, it provides a motion foundation for the mounting plate 12, ensuring that the mounting plate 12 can move along a predetermined trajectory, achieving effective stirring of the material. Driven by the second connecting base 13, the mounting plate 12 performs circular motion around the hollow stirring shaft 8, directly stirring the water glass raw material in the tank 1, increasing the mixing of the material. To improve mixing efficiency and uniformity, the adjusting base 14 is movable inside the hollow stirring shaft 8. Its outer protrusion connects to the external second connecting rod 15 via a movable hole 9. By moving up and down, it drives the second connecting rod 15, thereby changing the position of the second connecting base 13 and the mounting plate 12, thus adjusting the stirring radius of the stirring assembly. This is the core driving component for flexible stirring radius adjustment. The protrusion passes through the movable hole 9 and connects to the second connecting rod 15, converting the up and down movement of the adjusting base 14 into the retraction and extension movement of the second connecting rod 15. This serves as the power transmission medium between the adjusting base 14 and the stirring assembly, ensuring that the movement of the adjusting base 14 is accurately transmitted to the stirring assembly, achieving precise adjustment of the stirring radius. One end of the second connecting rod 15 connects to the protrusion of the adjusting base 14, and the other end connects to the second connecting base 13. Driven by the adjusting base 14, its own movement drives the second connecting base 13, thereby changing the distance between the mounting plate 12 and the hollow stirring shaft 8, thus changing the stirring radius. This is a key transmission component in the stirring radius adjustment process.
[0030] Specifically, the mixing assembly also includes several first mounting holes, with connecting rods 25 movably installed inside the first mounting holes. A scraper 27 is fixedly installed at one end of each of the two connecting rods 25, and a first spring 26 is fixedly installed on one side of the scraper 27. The other end of the first spring 26 is fixedly installed on one side of the mounting plate 12.
[0031] In this embodiment, a first mounting hole is provided to provide an installation position for the connecting rod 25, allowing the connecting rod 25 to move flexibly within it. This ensures the installation stability and movement flexibility of the scraper 27 on the mounting plate 12, providing a foundation for the scraper 27 to perform cleaning tasks. The connecting rod 25 connects the scraper 27 and the mounting plate 12, serving as a force transmission component, transmitting the movement of the mounting plate 12 to the scraper 27. Simultaneously, under the action of the first spring 26, it can move within the first mounting hole, ensuring that the scraper 27 can adapt to cleaning needs under different working conditions. When it is necessary to scrape off the water glass adhering to the inner wall of the tank 1, the scraper 27 is in close contact with the inner wall of the tank 1, and with the rotation of the mounting plate 12, it removes the water glass adhering to the inner wall of the tank 1. The scraper 27 is scraped to prevent material from accumulating on the tank wall, affecting the uniformity of mixing and product quality. It also prevents residual material on the tank wall from solidifying and affecting the use of the tank 1. The first spring 26 connects the scraper 27 and the mounting plate 12. When the scraper 27 comes into contact with the condensate on the inner wall of the tank 1 or encounters significant resistance, the spring compression acts as a buffer to prevent the scraper 27 from colliding hard with the tank wall and causing damage. At the same time, the spring's own elasticity keeps the scraper 27 in contact with the tank wall, ensuring the cleaning effect. The scraper 27 is fixedly installed at the other end of the connecting rod 25 to prevent the connecting rod 25 from coming out of the first mounting hole, ensuring the connection stability between the scraper 27 and the mounting plate 12, ensuring that the scraper 27 will not fall off during mixing and cleaning, and maintaining the normal operation of the mixing assembly.
[0032] Specifically, the adjustment assembly includes four second mounting holes, which are symmetrically opened on the outside of the hollow stirring shaft 8. An adjustment rod 17 is movably installed inside the second mounting holes. One end of the adjustment rod 17 is provided with a mounting groove 18. A limit groove 20 is symmetrically opened on the inner side of the mounting groove 18. A steel wire rope 16 is fixedly installed on the outside of the adjustment rod 17. The other end of the steel wire rope 16 is fixedly installed to the top of the adjustment base 14.
[0033] In this embodiment, a second mounting hole provides an installation position and movement space for the adjusting rod 17, allowing it to move inside the hollow stirring shaft 8. The rotation of the adjusting rod 17 drives the wire rope 16 to extend and retract, thus controlling the up-and-down movement of the adjusting base 14 within the hollow stirring shaft 8, thereby adjusting the stirring radius. The mounting groove 18 provides installation space for the rotating rod 21, allowing these components to move inside the adjusting rod 17. The limiting groove 20 works in conjunction with the limiting block installed inside the adjusting rod 17. The wire rope 16, as a transmission component connecting the adjusting rod 17 and the adjusting base 14, converts the rotational movement of the adjusting rod 17 into the movement of the adjusting base 14. The vertical linear motion of the adjusting rod 17 causes the steel wire rope 16 to be extended or retracted when the adjusting rod 17 rotates, thereby pulling the adjusting base 14 to move within the hollow stirring shaft 8. This mechanism possesses a certain degree of flexibility and strength, enabling it to adapt to different motion states and directional changes during force transmission. Simultaneously, it ensures the smooth movement of the adjusting base 14, preventing jamming or shaking. The vertical movement of the adjusting base 14 within the hollow stirring shaft 8, in conjunction with the stirring components, changes the distance between the mounting plate 12 and the hollow stirring shaft 8, thus adjusting the stirring radius. This provides a connection point for the steel wire rope 16, allowing the adjusting rod 17 to be controlled via the steel wire rope 16, thereby achieving the function of adjusting the entire stirring radius.
[0034] Specifically, the adjustment assembly also includes a rotary rod 21, which is movably installed inside the mounting groove 18. A second spring 19 is fixedly installed at one end of the rotary rod 21, and the other end of the second spring 19 is fixedly installed inside one side of the mounting groove 18. A bolt head 22 is fixedly installed at the other end of the rotary rod 21. Several adjustment holes 23 are opened on one side of the bolt head 22. A fixing rod 24 is fixedly installed on the outside of the hollow stirring shaft 8. The adjustment holes 23 are used in conjunction with the fixing rod 24. Limiting blocks are symmetrically fixedly installed on the outside of the rotary rod 21. The limiting blocks are used in conjunction with the limiting groove 20.
[0035] In this embodiment, by setting up a rotating rod 21, the operator manually operates the bolt head 22 to drive the rotating rod 21 to rotate, which in turn drives the adjusting rod 17 to rotate. The rotation of the adjusting rod 17 can retract the wire rope 16, ultimately controlling the up-and-down movement of the adjusting base 14 within the hollow stirring shaft 8, thereby adjusting the stirring radius. One end of the second spring 19 is fixed to the rotating rod 21, and the other end is connected to one side of the mounting groove 18, providing elastic support for the rotating rod 21. When the bolt head 22 is pulled, the second spring 19 is stretched and stores elastic potential energy. When the adjusting base 14 is adjusted to the appropriate position, the adjusting hole 23 of the bolt head 22 is aligned with the fixing rod 24 and inserted. At this time, the second spring 19 contracts, and the bolt head 22 and the fixing rod 24 are tightly fixed together by the elastic force, preventing the bolt head 22 from falling off the fixing rod 24 when the hollow stirring shaft 8 rotates, ensuring the adjustment. To ensure the stability of the joint structure, the bolt head 22 provides the operator with a point of leverage for operating the rotating rod 21. The operator can easily control the rotation of the rotating rod 21 by manually pulling and rotating the bolt head 22, thereby adjusting the stirring radius. The adjustment hole 23 cooperates with the fixing rod 24. When the adjustment hole 23 is aligned with the fixing rod 24 and inserted, the position of the rotating rod 21 can be precisely fixed, ensuring that the stirring radius will not change after adjustment, thus ensuring the stability of the stirring operation. The fixing rod 24 cooperates with the adjustment hole 23 of the bolt head 22. After the position of the adjustment base 14 is adjusted, it is inserted into the adjustment hole 23 to fix the rotating rod 21, ensuring that the adjustment component remains stable during the stirring process and preventing changes in the stirring radius. The limiting blocks are symmetrically fixedly installed on the outside of the rotating rod 21 and are used in conjunction with the limiting groove 20 to constrain the rotation range and direction of the rotating rod 21.
[0036] Specifically, a first limiting plate is fixedly installed at the other end of the connecting rod 25, a second limiting plate is fixedly installed at one end of the adjusting rod 17, and a drain pipe is fixedly installed at the bottom of the tank body 1.
[0037] In this embodiment, a first limiting plate is set to prevent the connecting rod 25 from coming out of the first mounting hole, ensuring the stability of the connection between the scraper 27 and the mounting plate 12. The second limiting plate can effectively prevent the adjusting rod 17 from sliding out of the second mounting hole, maintaining the integrity of the adjusting component structure. During the adjustment of the stirring radius, no matter how the adjusting rod 17 rotates or is retracted under the action of the wire rope 16, the second limiting plate can ensure that the adjusting rod 17 is stably installed inside the hollow stirring shaft 8, ensuring that the adjusting rod 17 works in coordination with other components to achieve precise adjustment of the stirring radius. The drain pipe is fixedly installed at the bottom of the tank 1. After the stirring preparation is completed, the corrosion-resistant water glass product can be smoothly discharged from the tank 1 through the drain pipe.
[0038] Specifically, the rectangular groove makes one side of the first connecting base 10 have a U-shaped structure, which limits the first connecting rod 11 and only allows the first connecting rod 11 to rotate upward in one direction.
[0039] In this embodiment, by setting a first connecting base 10, one side of which has a U-shaped structure, a specific motion track is provided for the first connecting rod 11. This structure effectively regulates the motion direction of the first connecting rod 11 by limiting its movement, preventing it from swinging randomly or rotating in the opposite direction during the stirring process, and ensuring the stability and regularity of the stirring assembly's movement. Under the limitation of the U-shaped structure, the first connecting rod 11 can only rotate upward in one direction around the round rod.
[0040] In summary: When using this utility model, the operator manually pulls the bolt head 22, causing the rotating rod 21 to slide within the mounting groove 18 of the adjusting rod 17. The second spring 19 is stretched, separating the adjusting hole 23 of the bolt head 22 from the outer fixing rod 24 of the hollow stirring shaft 8, thus unlocking the rotating rod 21. Subsequently, rotating the bolt head 22 drives the rotating rod 21 to rotate. The outer limiting block of the rotating rod 21 engages with the limiting groove 20 to ensure stable rotation direction, thereby driving the adjusting rod 17 to rotate synchronously within the second mounting hole. When the adjusting rod 17 rotates, it engages with the steel wire connecting the adjusting base 14. When the wire rope 16 is wound up or released, the adjusting base 14 moves upward within the hollow stirring shaft 8 to release the wire rope 16. The adjusting base 14 then moves downward under gravity. The outer protrusion of the adjusting base 14 passes through the movable hole 9 of the hollow stirring shaft 8 and is movably connected to the second connecting rod 15 via a round rod. When the adjusting base 14 moves upward, the protrusion moves upward, pulling the second connecting rod 15 to rotate around the round rod connected to the protrusion. When the adjusting base 14 moves downward, the protrusion moves downward, pushing the second connecting rod 15 to rotate in the opposite direction around the round rod. The other end of the first connecting rod 15 is fixedly installed to the second connecting base 13 via a round rod. When the second connecting rod 15 is rotated by the adjusting base 14, it will push or pull the second connecting base 13. When the adjusting base 14 moves upward, the second connecting rod 15 pulls the second connecting base 13 inward, i.e., closer to the hollow stirring shaft 8; when the adjusting base 14 moves downward, the second connecting rod 15 pushes the second connecting base 13 outward, away from the hollow stirring shaft 8. One end of the first connecting rod 11 is installed in the U-shaped rectangular groove at the top of the first connecting base 10 via a round rod, and the other end is connected to the second connecting base 10. The second connecting base 13 is connected to the first connecting rod 11. Due to the U-shaped rectangular groove limiting the first connecting rod 11, it is only allowed to rotate upward in one direction within a 90-degree range. When the second connecting base 13 moves inward, the first connecting rod 11 rotates upward around the round rod connected to the first connecting base 10. When the second connecting base 13 moves outward, the first connecting rod 11 rotates downward around the round rod. An mounting plate 12 is fixedly installed on one side of the second connecting base 13. The inward or outward movement of the second connecting base 13 directly drives the mounting plate 12 to move closer to or away from the hollow stirring shaft 8, thereby realizing the adjustment of the stirring radius.
[0041] When the external power supply is connected and the motor 7 is started, it rotates at high speed. The first connecting base 10 is fixed to the outside of the hollow stirring shaft 8 and moves in a circular motion. The circular motion of the first connecting base 10 will drive the first connecting rod 11 to move. The first connecting rod 11 will then drive the second connecting rod 15 to rotate. The rotation of the second connecting rod 15 will drive the second connecting base 13 to move in a circular motion, which in turn will drive the mounting plate 12 to move in a circular motion around the hollow stirring shaft 8, thus stirring the corrosion-resistant water glass material in the tank 1. When it is necessary to scrape off the deposits on the inner wall of the tank 1, the adjusting base 14 is released to the bottom of the movable hole 9 through the adjusting component, so that the scraper 27 contacts the inner wall of the tank 1. When condensation occurs on the inner wall of tank 1, the first spring 26 is compressed, which acts as a buffer to prevent the scraper 27 from being damaged by direct hard collision with the condensation. As the mounting plate 12 continues to rotate, the elastic force of the first spring 26 keeps the scraper 27 in contact with the inner wall of tank 1, constantly scraping away the condensation and ensuring the cleanliness of the inner wall of tank 1. After stirring, raising the stirring component allows the water glass remaining on the stirring component to drip into the inside of tank 1 under the action of gravity, reducing material waste. The corrosion-resistant water glass prepared in tank 1 can be discharged through the drain pipe fixedly installed at the bottom of tank 1, which facilitates subsequent processing and optimization. At the same time, the first connecting base 10 transmits the motion to the first connecting rod 11, and then to the mounting plate 12 through the first connecting rod 11.
[0042] The above description is merely a preferred embodiment of this utility model and is not intended to limit the utility model in any other way. Any person skilled in the art may make changes or modifications to the disclosed technical content to create equivalent embodiments. However, any simple modifications, equivalent changes, and modifications made to the above embodiments based on the technical essence of this utility model without departing from its technical solution shall still fall within the protection scope of this utility model.
Claims
1. A stirring apparatus for preparing corrosion-resistant water glass, characterized in that, The device includes a tank (1), on the outside of which a rectangular column (2) is fixedly installed. A rectangular mounting hole (3) is provided on one side of the rectangular column (2). A hydraulic rod (4) is fixedly installed inside the rectangular mounting hole (3). A support rod (5) is fixedly installed at the output end of the hydraulic rod (4). A round hole (6) is provided at the top of the support rod (5). A motor (7) is fixedly installed at the top of the support rod (5). The output end of the motor (7) passes through the round hole (6). A hollow stirring shaft (8) is fixedly installed at the output end of the motor (7). Four movable holes (9) are symmetrically provided on the outside of the hollow stirring shaft (8). A stirring component that can change the stirring radius is provided on the outside of the hollow stirring shaft (8). The movable holes (9) are used in conjunction with the stirring component. An adjustment component is provided inside the hollow stirring shaft (8).
2. The stirring and preparation apparatus for corrosion-resistant water glass according to claim 1, characterized in that, The stirring assembly includes several first connecting bases (10), which are symmetrically fixedly installed on the outside of the hollow stirring shaft (8). A rectangular groove is provided on the top of the first connecting base (10). A first connecting rod (11) is movably installed inside the rectangular groove via a round rod. A second connecting base (13) is movably installed at the other end of the first connecting rod (11) via a round rod. An mounting plate (12) is fixedly installed on one side of the second connecting base (13). An adjusting base (14) is movably installed inside the hollow stirring shaft (8). A protrusion is fixedly installed on the outside of the adjusting base (14). The protrusion passes through the movable hole (9). A second connecting rod (15) is movably installed on the protrusion via a round rod. The other end of the second connecting rod (15) is fixedly installed to the second connecting base (13) via a round rod.
3. The stirring and preparation apparatus for corrosion-resistant water glass according to claim 2, characterized in that, The stirring assembly also includes several first mounting holes, in which connecting rods (25) are movably installed. One end of each of the two connecting rods (25) is fixedly mounted with a scraper (27). A first spring (26) is fixedly mounted on one side of the scraper (27), and the other end of the first spring (26) is fixedly mounted to one side of the mounting plate (12).
4. The stirring and preparation apparatus for corrosion-resistant water glass according to claim 1, characterized in that, The adjustment assembly includes four second mounting holes, which are symmetrically opened on the outside of the hollow stirring shaft (8). An adjustment rod (17) is movably installed inside the second mounting holes. One end of the adjustment rod (17) is provided with a mounting groove (18). A limit groove (20) is symmetrically opened on the inner side of the mounting groove (18). A steel wire rope (16) is fixedly installed on the outside of the adjustment rod (17). The other end of the steel wire rope (16) is fixedly installed on the top of the adjustment base (14).
5. The stirring apparatus for preparing corrosion-resistant water glass according to claim 1, characterized in that, The adjustment assembly also includes a rotary rod (21), which is movably installed inside the mounting groove (18). A second spring (19) is fixedly installed at one end of the rotary rod (21), and the other end of the second spring (19) is fixedly installed inside one side of the mounting groove (18). A bolt head (22) is fixedly installed at the other end of the rotary rod (21). Several adjustment holes (23) are provided on one side of the bolt head (22). A fixing rod (24) is fixedly installed on the outside of the hollow stirring shaft (8). The adjustment holes (23) are used in conjunction with the fixing rod (24). Limiting blocks are symmetrically fixedly installed on the outside of the rotary rod (21). The limiting blocks are used in conjunction with the limiting groove (20).
6. The stirring and preparation apparatus for corrosion-resistant water glass according to claim 3, characterized in that, The other end of the connecting rod (25) is fixedly installed with a first limiting plate, and the bottom of the tank (1) is fixedly installed with a drain pipe.
7. The stirring and preparation apparatus for corrosion-resistant water glass according to claim 2, characterized in that, The rectangular groove makes one side of the first connecting base (10) have a U-shaped structure, which limits the first connecting rod (11) and only allows the first connecting rod (11) to rotate upward in one direction.