Self-cleaning bottom-discharge extraction tank

By designing auxiliary components and a water spray component for the self-cleaning bottom slag extraction tank, the problem of residue adhesion is solved, and the residue is effectively scraped off and cleaned, ensuring the cleanliness of the extraction tank and operational efficiency.

CN224333013UActive Publication Date: 2026-06-09SICHUAN XIAOYE MATERIA MEDICA BIOTECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SICHUAN XIAOYE MATERIA MEDICA BIOTECHNOLOGY CO LTD
Filing Date
2025-07-10
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Residue in existing extraction tanks tends to adhere to the discharge point, causing residue to remain and contaminate the next extraction operation, requiring a significant amount of time for cleaning.

Method used

The design incorporates a self-cleaning bottom slag extraction tank, employing auxiliary components and a water spray component. The auxiliary components scrape off adhering residues through a rotating groove, rotating ring, and connecting rod, while the water spray component cleans the slag discharge structure through spray nozzles.

Benefits of technology

It effectively scrapes off and cleans residues, avoiding residue contamination and ensuring the cleanliness of the extraction tank and operational efficiency.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224333013U_ABST
    Figure CN224333013U_ABST
Patent Text Reader

Abstract

The utility model relates to a self -cleaning bottom deslagging extraction tank technical field, specifically, a self -cleaning bottom deslagging extraction tank, it includes extraction tank body, and the auxiliary assembly is installed on the deslagging pipe, and the rotating groove is surrounded and seted up on the inside arc surface of deslagging chamber, and the mounting groove is surrounded and seted up on the top end face of rotating groove, and the rotating ring is rotatably installed in rotating groove, and the water injection chamber is seted up in the inside of rotating ring, and the clamping block is rotatably installed in the inside of clamping groove, and the top end of clamping block inserts the inside of mounting groove, and the inside arc surface of rotating ring is fixedly connected with vertical connecting rod, and the top end of vertical connecting rod is fixedly connected with oblique connecting rod, and the bottom inclined surface of oblique connecting rod is tangent with the inside arc surface of extraction tank body, and the water spraying assembly is installed on vertical connecting rod and oblique connecting rod, and through the cooperation of auxiliary assembly and water spraying assembly, can avoid the waste residue to remain in the inner wall of tank body and the deslagging mouth position, and achieves the flushing effect of the inner wall of tank body multi -angle simultaneously.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the technical field of self-cleaning bottom slag discharge extraction tanks, and more specifically, to a self-cleaning bottom slag discharge extraction tank. Background Technology

[0002] After extraction using the extraction tank, the remaining residue and waste can be discharged through the discharge structure. The discharge location needs to be cleaned to ensure the cleanliness of the extraction tank and meet the subsequent tank usage requirements.

[0003] A search revealed CN220877806U, which discloses an extraction tank for convenient slag discharge. The tank comprises an extraction tank body, with a feed pipe fixedly installed through the upper end of the body. A heating plate and a heat-conducting layer are sequentially arranged from the outside to the inside of the side wall of the extraction tank body. A rotating shaft is movably installed inside the extraction tank body. A stirring rod is symmetrically fixedly installed on the rotating shaft, and a scraper is fixedly installed at the end of the stirring rod away from the rotating shaft. This invention, by providing a sealing cover, can seal the feed pipe, preventing impurities in the external air from entering the interior and causing contamination when no feed is being fed. This invention is characterized by its strong practicality and convenient slag discharge.

[0004] The aforementioned patent still has shortcomings in actual use. During the operation of the existing technology, some residue will adhere to the discharge position, resulting in residue and waste. Furthermore, the residue will contaminate the next extraction operation of the tank, so a lot of time needs to be spent cleaning the discharge position of the tank.

[0005] Based on this, this utility model discloses a self-cleaning bottom slag extraction tank. Utility Model Content

[0006] To address the problem mentioned in the background art where some residue adheres to the discharge position during existing operations, resulting in residual waste that contaminates subsequent tank extraction operations and necessitates significant time-consuming cleaning of the tank discharge position, this utility model provides a self-cleaning bottom-discharge extraction tank. The tank includes an extraction tank body with a discharge pipe installed at the bottom. The discharge pipe encloses a discharge cavity, and an auxiliary component is installed on the discharge pipe. This auxiliary component includes a rotating groove, which is circumferentially formed on the arc surface inside the discharge cavity. A mounting groove is circumferentially formed on the top end face of the device. A rotating ring is rotatably mounted inside the rotating groove. A water injection chamber is formed inside the rotating ring. A rotating opening is formed through the top of the water injection chamber. A slot is formed on the vertical arc surface of the rotating opening. A locking block is rotatably mounted inside the slot. The top of the locking block is inserted into the mounting groove. A vertical connecting rod is fixedly connected to the inner arc surface of the rotating ring. An oblique connecting rod is fixedly connected to the top of the vertical connecting rod. The bottom slope of the oblique connecting rod is tangent to the inner arc surface of the extraction tank. A water spray assembly is mounted on the vertical connecting rod and the oblique connecting rod.

[0007] As a further improvement to this technical solution, a structural groove is provided on the vertical arc surface of the rotating groove, and gear teeth are fixedly connected to the outer vertical arc surface of the rotating ring. An installation box is installed on the outside of the slag discharge pipe at the opening of the structural groove. A drive motor is installed in the installation box, and a gear is installed on the top of the output shaft of the drive motor. The rotation trajectory of the gear is inserted into the rotating groove through the structural groove, and the gear meshes with the gear teeth.

[0008] As a further improvement to this technical solution, the inner arc surface of the rotating ring and the inner wall arc surface of the slag discharge chamber are located in the same vertical arc surface, and the vertical surface of the vertical connecting rod near the slag discharge chamber is tangent to the inner wall arc surface of the slag discharge chamber.

[0009] As a further improvement to this technical solution, the water spray assembly includes a connecting hole. The bottom end of the vertical connecting rod has a connecting hole, one end of which passes through the ring of the rotating groove and is connected to the water injection chamber. The interior of the vertical connecting rod and the inclined connecting rod has a water inlet chamber, the bottom of which is connected to the connecting hole. The top inclined surface of the inclined connecting rod has water spray nozzles at equal intervals, and the water spray nozzles are connected to the water inlet chamber.

[0010] As a further improvement to this technical solution, a fixing groove is provided on the body of the slag discharge pipe, the space of the fixing groove is inserted into the interior of the card block, the interior of the card block is provided with a water inlet hole located below the fixing groove, the bottom of the water inlet hole is connected to the opening space of the water injection chamber, and a water inlet pipe is provided inside the fixing groove.

[0011] As a further improvement to this technical solution, a short water inlet pipe is installed directly below one end of the water inlet pipe inserted into the fixing groove, and the short water inlet pipe is inserted into the inside of the water inlet hole. The water inlet pipe is connected to an external water delivery device.

[0012] Compared with existing technologies, the beneficial effects of this utility model are:

[0013] 1. In this self-cleaning bottom slag extraction tank, with the cooperation of auxiliary components, the waste residue adhering to the discharge structure is scraped off, ensuring the smooth progress of the slag discharge operation and avoiding the contamination of the next extraction operation by residual waste residue.

[0014] 2. In this self-cleaning bottom slag extraction tank, the slag discharge structure is cleaned during the slag discharge process through the operation of the water spray component, and the inner wall of the slag discharge chamber is cleaned, so as to avoid waste residue and ensure the cleanliness of the slag discharge position. Attached Figure Description

[0015] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0016] Figure 2 This is a structural diagram showing the installation location of the water inlet pipe in this utility model;

[0017] Figure 3 This is a schematic cross-sectional view of the rotating groove in this utility model.

[0018] Figure 4 This is a schematic cross-sectional view of the rotating ring used in this utility model.

[0019] Figure 5 This is a structural diagram showing the installation position of the vertical connecting rod in this utility model;

[0020] Figure 6 This is a schematic cross-sectional view of the water inlet chamber of this utility model.

[0021] The meanings of the labels in the diagram are as follows:

[0022] 1. Extraction tank; 2. Slag discharge pipe; 3. Slag discharge chamber; 4. Rotating groove; 5. Installation groove; 6. Rotating ring; 7. Water injection chamber; 8. Slot; 9. Locking block; 10. Vertical connecting rod; 11. Angled connecting rod; 12. Gear tooth; 13. Structural groove; 14. Mounting box; 15. Drive motor; 16. Gear; 17. Fixing groove; 18. Water inlet hole; 19. Water inlet pipe; 20. Connecting hole; 21. Water inlet chamber; 22. Spray nozzle. Detailed Implementation

[0023] The technical solutions 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, and 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 scope of protection of this utility model.

[0024] Therefore, this utility model provides a self-cleaning bottom-discharge extraction tank, see [link / reference]. Figures 1-6 As shown, it includes an extraction tank 1, a slag discharge pipe 2 installed at the bottom of the extraction tank 1, a slag discharge cavity 3 enclosed inside the slag discharge pipe 2, and an auxiliary component installed on the slag discharge pipe 2. The auxiliary component includes a rotating groove 4. The rotating groove 4 is circumferentially formed on the inner arc surface of the slag discharge cavity 3. An installation groove 5 is circumferentially formed on the top end face of the rotating groove 4. A rotating ring 6 is rotatably installed inside the rotating groove 4. A water injection cavity 7 is formed inside the rotating ring 6. A rotating opening is formed through the top of the water injection cavity 7, and a slot 8 is formed on the vertical arc surface of the rotating opening. A locking block 9 is rotatably installed inside the slot 8. The top of the locking block 9 is inserted into the interior of the installation groove 5. A vertical connecting rod 10 is fixedly connected to the inner arc surface of the rotating ring 6. An inclined connecting rod 11 is fixedly connected to the top of the vertical connecting rod 10. The bottom inclined surface of the inclined connecting rod 11 is tangent to the inner arc surface of the extraction tank 1. A water spray component is installed on the vertical connecting rod 10 and the inclined connecting rod 11. When the rotating ring 6 rotates, the locking block 9 is fixed inside the mounting groove 5. The locking block 9 mainly serves as a limit, and during the rotation of the rotating ring 6, the locking block 9 rotates relative to the inside of the locking groove 8.

[0025] A structural groove 13 is formed on the vertical arc surface of the rotating groove 4. Gear teeth 12 are fixedly connected to the outer vertical arc surface of the rotating ring 6. An installation box 14 is installed on the outside of the slag discharge pipe 2 at the opening of the structural groove 13. A drive motor 15 is installed in the installation box 14. A gear 16 is installed on the top of the output shaft of the drive motor 15. The rotation trajectory of the gear 16 is inserted into the rotating groove 4 through the structural groove 13, and the gear 16 meshes with the gear teeth 12. The drive motor 15 can provide driving force for the rotation of the gear 16. With the cooperation of the gear teeth 12, it can provide driving force for the rotation of the rotating ring 6, thereby ensuring that the vertical connecting rod 10 and the inclined connecting rod 11 can rotate smoothly.

[0026] The inner arc surface of the rotating ring 6 and the inner wall arc surface of the slag discharge chamber 3 are located in the same vertical arc surface, and the vertical surface of the vertical connecting rod 10 near the slag discharge chamber 3 is tangent to the inner wall arc surface of the slag discharge chamber 3.

[0027] During operation, through the structural design of the auxiliary components, when the waste residue inside the slag discharge chamber 3 is discharged, the drive motor 15 inside the mounting box 14 is started, and the gear 16 rotates. With the cooperation of the gear teeth 12 and the locking block 9, the rotating ring 6 drives the vertical connecting rod 10 and the inclined connecting rod 11 to rotate along the rotating groove 4. The vertical connecting rod 10 scrapes off the waste residue adhering to the inner surface of the slag discharge chamber 3, while the inclined connecting rod 11 ensures that no waste residue adheres to the inclined surface of the inner wall of the extraction tank 1, thereby achieving full discharge of waste residue and avoiding residue.

[0028] Further, see Figures 2-6 As shown, the water spray assembly includes a connecting hole 20. The bottom end of the vertical connecting rod 10 has a connecting hole 20, one end of which passes through the ring of the rotating groove 4 and connects to the water injection chamber 7. The vertical connecting rod 10 and the inclined connecting rod 11 have water inlet chambers 21 inside, the bottom of which connects to the connecting hole 20. Water spray nozzles 22 are equidistantly arranged on the top inclined surface of the inclined connecting rod 11, and these nozzles connect to the water inlet chamber 21. Water from inside the water injection chamber 7 can enter the water inlet chamber 21 through the connecting hole 20 and be sprayed out through the nozzles 22. As the inclined connecting rod 11 rotates, the water can spray and clean the bottom of the extraction tank 1 from all directions.

[0029] A fixing groove 17 is provided on the body of the slag discharge pipe 2. The space of the fixing groove 17 is inserted into the interior of the clamping block 9. A water inlet hole 18 is provided inside the clamping block 9 below the fixing groove 17. The bottom of the water inlet hole 18 communicates with the opening space of the water injection chamber 7. A water inlet pipe 19 is provided inside the fixing groove 17. Since one end of the water inlet pipe 19 is inserted into the fixing groove 17 inside the clamping block 9, the water inlet pipe 19 can help fix the working position of the clamping block 9 and ensure that the water can smoothly enter the interior of the water injection chamber 7 through the water inlet hole 18.

[0030] A short water inlet pipe is installed directly below one end of the water inlet pipe 19 that is inserted into the fixing groove 17, and the short water inlet pipe is inserted into the inside of the water inlet hole 18. The water inlet pipe 19 is connected to an external water supply device.

[0031] During operation, thanks to the structural design of the water spray assembly, as the vertical connecting rod 10 and the oblique connecting rod 11 rotate, the water supply device simultaneously delivers water to the inlet pipe 19. The water enters the inlet pipe 19 and flows into the water injection chamber 7 through the inlet short pipe and the inlet hole 18. As the amount of water increases, the water pressure increases, and the water enters the inlet chamber 21 through the connecting hole 20, and is then sprayed out through the spray nozzle 22. This achieves the goal of cleaning the bottom of the tank and the slag discharge structure while scraping off the residue, ensuring the cleanliness of the tank interior and the slag discharge structure.

[0032] In summary, this effectively solves the problem that in existing technologies, some residues adhere to the discharge point, leaving behind waste materials that contaminate the next tank extraction operation, thus requiring a significant amount of time to clean the tank discharge point.

[0033] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such process, method, article, or apparatus.

[0034] Although embodiments of the present utility have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present utility, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A self-cleaning bottom-discharge extraction tank, comprising an extraction tank body (1), wherein a slag discharge pipe (2) is installed at the bottom of the extraction tank body (1), and a slag discharge cavity (3) is enclosed inside the slag discharge pipe (2), characterized in that: An auxiliary component is installed on the slag discharge pipe (2). The auxiliary component includes a rotating groove (4). The rotating groove (4) is circumferentially formed on the inner arc surface of the slag discharge chamber (3). An installation groove (5) is circumferentially formed on the top end face of the rotating groove (4). A rotating ring (6) is rotatably installed inside the rotating groove (4). A water injection chamber (7) is formed inside the rotating ring (6). A rotating opening is formed through the top of the water injection chamber (7), and a slot is formed on the vertical arc surface of the rotating opening. (8) A card block (9) is rotatably installed inside the card slot (8). The top of the card block (9) is inserted into the inside of the mounting slot (5). A vertical connecting rod (10) is fixedly connected to the inner arc surface of the rotating ring (6). An oblique connecting rod (11) is fixedly connected to the top of the vertical connecting rod (10). The bottom oblique surface of the oblique connecting rod (11) is tangent to the inner arc surface of the extraction tank (1). A water spray assembly is installed on the vertical connecting rod (10) and the oblique connecting rod (11).

2. The self-cleaning bottom slag discharge extraction tank according to claim 1, characterized in that: The rotating groove (4) has a structural groove (13) on its vertical arc surface. The rotating ring (6) has a gear tooth (12) fixedly connected to its outer vertical arc surface. The slag discharge pipe (2) has an installation box (14) installed at the opening of the structural groove (13). The installation box (14) has a drive motor (15) installed in it. The top of the output shaft of the drive motor (15) has a gear (16) installed. The rotation trajectory of the gear (16) is inserted into the rotating groove (4) through the structural groove (13). The gear (16) meshes with the gear tooth (12).

3. The self-cleaning bottom slag discharge extraction tank according to claim 2, characterized in that: The inner arc surface of the rotating ring (6) and the inner wall arc surface of the slag discharge chamber (3) are located in the same vertical arc surface, and the vertical connecting rod (10) near the vertical surface of the slag discharge chamber (3) is tangent to the inner wall arc surface of the slag discharge chamber (3).

4. The self-cleaning bottom slag discharge extraction tank according to claim 3, characterized in that: The water spray assembly includes a connecting hole (20). The bottom end of the vertical connecting rod (10) is provided with a connecting hole (20). One end of the connecting hole (20) passes through the ring of the rotating groove (4) and is connected to the water injection chamber (7). The interior of the vertical connecting rod (10) and the inclined connecting rod (11) is provided with a water inlet chamber (21). The bottom of the water inlet chamber (21) is connected to the connecting hole (20). The top inclined surface of the inclined connecting rod (11) is provided with water spray nozzles (22) at equal intervals, and the water spray nozzles (22) are connected to the water inlet chamber (21).

5. A self-cleaning bottom slag discharge extraction tank according to claim 4, characterized in that: The slag discharge pipe (2) has a fixed groove (17) on its body. The space of the fixed groove (17) is inserted into the interior of the card block (9). The interior of the card block (9) is provided with a water inlet hole (18) located below the fixed groove (17). The bottom of the water inlet hole (18) is connected to the space of the water injection chamber (7). The interior of the fixed groove (17) is provided with a water inlet pipe (19).

6. A self-cleaning bottom slag discharge extraction tank according to claim 5, characterized in that: A short water inlet pipe is installed directly below one end of the water inlet pipe (19) inserted into the fixing groove (17), and the short water inlet pipe is inserted into the inside of the water inlet hole (18). The water inlet pipe (19) is connected to an external water delivery device.