High-strength cylindrical activated carbon molding device

By designing easy-to-load and place components, the problem of difficult-to-replace and clean molding plates has been solved, achieving efficient molding plate replacement and cleaning, and improving the efficiency and stability of the molding device.

CN224426665UActive Publication Date: 2026-06-30JIANGSU QIANHUIHE ENVIRONMENTAL REGENERATION CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JIANGSU QIANHUIHE ENVIRONMENTAL REGENERATION CO LTD
Filing Date
2025-05-27
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

After long-term use, the shaped plates of existing molding devices retain activated carbon in the holes, which reduces the shaping effect and makes them difficult to replace and clean.

Method used

A high-strength columnar activated carbon forming device with convenient loading and unloading components was designed. Through the cooperation of annular holes, annular plates, plug-in rods and limiting rings, the forming plates can be conveniently loaded, unloaded and cleaned. Combined with magnetic plates and limiting plates for placing components, spare forming plates can be easily stored and replaced.

Benefits of technology

It enables convenient replacement and cleaning of the shaping plate, prevents activated carbon buildup from affecting the shaping effect, and improves the efficiency and stability of the device.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses a high-strength columnar activated carbon forming device, comprising: a forming component, which includes an extrusion tube and a shaping plate; and a convenient loading and unloading component, which includes an annular hole, an annular plate, a connecting rod, and a limiting ring. The annular hole is located above the discharge end of the extrusion tube, the annular plate is engaged with the inner side of the annular hole, and the center of its inner end is fixedly connected to the top of the shaping plate. The connecting rod passes through the bottom inner side of the discharge end of the extrusion tube and is located below the shaping plate. The limiting ring is threadedly connected to the outer end of the connecting rod. By setting up the convenient loading and unloading component, rotating the limiting ring separates it from the outer end of the connecting rod. Then, pushing the shaping plate upwards causes the annular plate to leave the annular hole and the inner side of the discharge end of the extrusion tube, thereby facilitating the replacement of the removed shaping plate. This also facilitates cleaning of the removed shaping plate and prevents the accumulated activated carbon on the shaping plate after long-term use from affecting subsequent shaping effects.
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Description

Technical Field

[0001] This utility model relates to the field of high-strength columnar activated carbon processing technology, specifically a high-strength columnar activated carbon forming device. Background Technology

[0002] High-strength columnar activated carbon is a black cylindrical granule made from high-quality coal, coconut shells, wood chips, etc., through a series of production processes. During the processing of activated carbon, a molding device is required to shape it.

[0003] Existing molding devices use an extruder inside an extrusion tube to push activated carbon out of the tube. Since a shaping plate is fixedly connected to the discharge end of the extrusion tube, the pushed activated carbon becomes columnar after passing through the shaping plate. However, after long-term use, activated carbon remains and accumulates in the pores on the surface of the shaping plate. The accumulated activated carbon can affect the shaping effect of the subsequent shaping plate. Therefore, a molding device that is easy to load and unload is needed to replace and clean the shaping plate. Utility Model Content

[0004] The purpose of this invention is to provide a high-strength columnar activated carbon forming device to solve the problems mentioned in the background art. To solve the above technical problems, this invention is achieved through the following technical solution:

[0005] This utility model relates to a high-strength columnar activated carbon forming device, comprising:

[0006] A molding assembly, comprising an extrusion tube and a shaping plate; the shaping plate is snapped into the inner side of the extrusion tube's discharge end;

[0007] The easy loading and unloading assembly includes an annular hole, an annular plate, a plug rod, and a limiting ring. The annular hole is opened above the discharge end of the extrusion tube. The annular plate is snapped into the inner side of the annular hole, and the center of the inner end is fixedly connected to the top of the shaping plate. The plug rod passes through the bottom inner side of the discharge end of the extrusion tube and is located below the shaping plate. The limiting ring is threaded to the outer end of the plug rod.

[0008] Furthermore, the extrusion tube has a circular hole at the point where it passes through the insertion rod, and a groove is formed at the inner edge of the circular hole.

[0009] Furthermore, a limiting plate is engaged inside the slot, the top of the limiting plate is fixedly connected to the bottom of the shaping plate, the bottom of the limiting plate is fixedly connected to the top of the insertion rod, and round rods are fixedly connected to both sides of the top of the annular plate.

[0010] Furthermore, the molding assembly also includes a base and a feed box; the base is fixed to the bottom end of the extrusion tube, and the feed box is fixed to one side of the top end of the extrusion tube.

[0011] Furthermore, it also includes the placement of components;

[0012] The placement assembly includes a fixing block, a vertical rod, a placement box, and a magnetic plate; the fixing block is fixed to both sides of one end of the extrusion tube, the vertical rod is inserted into the top of the fixing block, the placement box is fixed between the inner sides of the upper end of the vertical rod, and the magnetic plate is magnetically attracted to the top of the placement box.

[0013] Furthermore, external plates are fixedly connected to both sides of the magnetic plate, and the magnetic plate is snapped into the top of the placement box through the external plates. An insertion groove is opened at the top of the fixing block where it is inserted with the vertical rod.

[0014] Furthermore, a limiting plate is fixedly connected to the bottom inner side of the placement box. The limiting plates are arranged in a set, and the inner sides of the limiting plates are engaged with the shaping plate.

[0015] This utility model has the following beneficial effects:

[0016] This invention, through the provision of a convenient loading and unloading component, allows for easy replacement of the shaping plate after prolonged use. By rotating the limiting ring, the limiting ring separates from the outer end of the insertion rod. Then, the shaping plate is pushed upwards, causing the annular plate to leave the annular hole. The annular plate is then held and pulled outwards, allowing the shaping plate to leave the inner side of the extrusion tube's discharge end. This facilitates the replacement of the removed shaping plate and also makes it easier to clean. This prevents the accumulation of activated carbon on the shaping plate after prolonged use from affecting subsequent shaping effects. Attached Figure Description

[0017] To more clearly illustrate the technical solutions of the embodiments of this utility model, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0018] Figure 1 This is a schematic diagram of the appearance and structure of this utility model;

[0019] Figure 2 This is an exploded structural diagram of the shaping plate and the extrusion tube discharge end of this utility model;

[0020] Figure 3 This is an exploded structural diagram of the placement component of this utility model.

[0021] The attached diagram lists the components represented by each number as follows:

[0022] 11. Base; 12. Extrusion tube; 13. Feed box; 14. Shaping plate; 21. Annular hole; 22. Annular plate; 23. Insert rod; 24. Limiting ring; 25. Slot; 26. Limiting plate; 27. Circular hole; 28. Round rod; 31. Fixing block; 32. Vertical rod; 33. Placement box; 34. Magnetic plate; 35. External plate; 36. Limiting plate; 37. Insert groove. Detailed Implementation

[0023] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0024] To make the objectives, technical solutions, and advantages of this utility model clearer, the embodiments of this utility model will be described in further detail below with reference to the accompanying drawings.

[0025] Please see Figures 1-2 As shown, this utility model is a high-strength columnar activated carbon forming device, comprising:

[0026] The molding assembly includes an extrusion tube 12 and a shaping plate 14; the shaping plate 14 is snapped into the inside of the discharge end of the extrusion tube 12.

[0027] The molding assembly also includes a base 11 and a feed box 13; the base 11 is fixed to the bottom end of the extrusion tube 12, and the feed box 13 is fixed to one side of the top end of the extrusion tube 12.

[0028] The base 11 is used to place the extrusion tube 12, which extrudes the activated carbon. The feed box 13 is used for the activated carbon to enter the extrusion tube 12, and the shaping plate 14 shapes the pushed activated carbon.

[0029] The easy loading and unloading assembly includes an annular hole 21, an annular plate 22, a plug rod 23, and a limiting ring 24. The annular hole 21 is opened above the discharge end of the extrusion tube 12. The annular plate 22 is snapped into the inner side of the annular hole 21, and the center of the inner end is fixedly connected to the top of the shaping plate 14. The plug rod 23 passes through the bottom inner side of the discharge end of the extrusion tube 12 and is located below the shaping plate 14. The limiting ring 24 is threaded to the outer end of the plug rod 23.

[0030] The annular hole 21 is used for connecting the annular plate 22 and removing the shaping plate 14. The annular plate 22 is used for connecting the shaping plate 14. The plug rod 23 is used for connecting the bottom end of the shaping plate 14 to the inner bottom end of the extrusion tube 12. The limiting ring 24 limits the plug rod 23 after plugging.

[0031] The extrusion tube 12 has a circular hole 27 at the point where it passes through the insertion rod 23, and a groove 25 is provided at the inner edge of the circular hole 27.

[0032] A limiting plate 26 is engaged inside the slot 25. The top of the limiting plate 26 is fixedly connected to the bottom of the plastic plate 14, and the bottom is fixedly connected to the top of the plug-in rod 23. Round rods 28 are fixedly connected to both sides of the top of the annular plate 22.

[0033] The circular hole 27 is used for the connection between the insertion rod 23 and the extrusion tube 12. The slot 25 is used for the connection of the limiting plate 26. The limiting plate 26 is used for the connection between the insertion rod 23 and the bottom end of the shaping plate 14. The circular rod 28 is used to remove the annular plate 22 and the shaping plate 14. When the insertion rod 23 is inserted into the circular hole 27, the limiting plate 26 and the slot 25 are engaged. At this time, the limiting ring 24 is rotated and connected to the outer end of the insertion rod 23 through the thread. Thus, with the cooperation of the limiting plate 26 and the limiting ring 24, the insertion rod 23 and the engaged shaping plate 14 can be limited, which facilitates the subsequent extrusion molding of activated carbon by the shaping plate 14.

[0034] Working principle: When the component is not in use, the plug rod 23 is inserted into the circular hole 27, and the limiting ring 24 is threadedly connected to the outer end of the plug rod 23. When the component is in use, the limiting ring 24 is rotated by hand, so that the limiting ring 24 is separated from the outer end of the plug rod 23 through the thread. Then, the circular rod 28 is pulled upward, so that the circular rod 28 drives the annular plate 22 and the shaping plate 14 to move upward, causing the annular plate 22 to leave the annular hole 21. The plug rod 23 and the limiting plate 26 are separated from the circular hole 27 and the slot 25 respectively, so that the shaping plate 14 leaves the inner side of the discharge end of the extrusion tube 12, thereby replacing the removed shaping plate 14 and facilitating the cleaning of the removed shaping plate 14.

[0035] Please see Figures 1-3 As shown, this embodiment, based on the above embodiment, further includes:

[0036] Place components;

[0037] The placement assembly includes a fixing block 31, a vertical rod 32, a placement box 33, and a magnetic plate 34; the fixing block 31 is fixed to both sides of one end of the extrusion tube 12, the vertical rod 32 is inserted into the top of the fixing block 31, the placement box 33 is fixed between the inner sides of the upper end of the vertical rod 32, and the magnetic plate 34 is magnetically attracted to the top of the placement box 33.

[0038] The fixing block 31 is used for the insertion of the bottom end of the vertical rod 32. The vertical rod 32 is used for the connection of the two ends of the placement box 33. The placement box 33 places the spare plastic plate 14. The magnetic plate 34 is attracted to the top of the placement box 33 by magnetic force, thereby covering the inside of the placement box 33.

[0039] External plates 35 are fixedly connected to both sides of the magnetic plate 34. The magnetic plate 34 is snapped into the top of the placement box 33 through the external plates 35. The top of the fixing block 31 has an insertion groove 37 at the insertion point with the vertical rod 32.

[0040] A limiting plate 36 is fixedly connected to the bottom inner side of the placement box 33. The limiting plates 36 are set in a group, and the inner sides of the limiting plates 36 are snapped together with the plastic plate 14.

[0041] The outer plate 35 further stabilizes the connection between the magnetic plate 34 and the top of the placement box 33. The insertion slot 37 is used to connect the bottom of the vertical rod 32 and the top of the fixing block 31. The limiting plate 36 limits the position of the spare plastic plate 14 placed in the placement box 33 to prevent the spare plastic plate 14 from shaking freely in the placement box 33. The spare plastic plate 14 can be stored and placed through the placement box 33 and the limiting plate 36.

[0042] Working principle: When the component is not in use, the vertical rod 32 is not inserted into the insertion slot 37. When the component is in use, the vertical rod 32 is inserted into the insertion slot 37, so that the vertical rod 32 is firmly connected to the fixing block 31 through the insertion slot 37. Then, the spare plastic plate 14 is placed between the inner sides of the limiting plate 36, so that the inner sides of the limiting plate 36 are engaged with the plastic plate 14. Then, the magnetic plate 34 is magnetically attracted to the top of the placement box 33 by hand, so that the magnetic plate 34 is engaged with the top of the placement box 33 through the outer plate 35, so that the magnetic plate 34 covers the inside of the placement box 33. When replacing the plastic plate 14, the magnetic plate 34 can be directly removed to take out the spare plastic plate 14 on the inside.

[0043] The preferred embodiments of this utility model disclosed above are merely illustrative of the present utility model. These preferred embodiments do not exhaustively describe all details, nor do they limit the utility model to the specific implementations described. Clearly, many modifications and variations can be made based on the content of this specification. This specification selects and specifically describes these embodiments to better explain the principles and practical applications of this utility model, thereby enabling those skilled in the art to better understand and utilize it. This utility model is limited only by the claims and their full scope and equivalents.

Claims

1. A high-strength columnar activated carbon forming device, characterized in that, include: A molding assembly, comprising an extrusion tube (12) and a shaping plate (14); the shaping plate (14) is snapped into the inner side of the discharge end of the extrusion tube (12); The easy loading and unloading assembly includes an annular hole (21), an annular plate (22), a plug rod (23), and a limiting ring (24). The annular hole (21) is opened above the discharge end of the extrusion tube (12). The annular plate (22) is snapped into the inner side of the annular hole (21), and the center of the inner end is fixedly connected to the top of the shaping plate (14). The plug rod (23) passes through the bottom inner side of the discharge end of the extrusion tube (12). The plug rod (23) is located below the shaping plate (14). The limiting ring (24) is threaded to the outer end of the plug rod (23).

2. The high-strength columnar activated carbon forming device according to claim 1, characterized in that: The extrusion tube (12) has a circular hole (27) at the point where it passes through the insertion rod (23), and a groove (25) is provided at the inner edge of the circular hole (27).

3. The high-strength columnar activated carbon forming device according to claim 2, characterized in that: The inner side of the slot (25) is fitted with a limiting plate (26). The top of the limiting plate (26) is fixedly connected to the bottom of the shaping plate (14), and the bottom is fixedly connected to the top of the plug rod (23). Round rods (28) are fixedly connected to both sides of the top of the annular plate (22).

4. The high-strength columnar activated carbon forming device according to claim 1, characterized in that: The molding assembly also includes a base (11) and a feed box (13); the base (11) is fixed to the bottom end of the extrusion tube (12), and the feed box (13) is fixed to one side of the top end of the extrusion tube (12).

5. The high-strength columnar activated carbon forming device according to claim 1, characterized in that: It also includes placement components; The placement assembly includes a fixing block (31), a vertical rod (32), a placement box (33), and a magnetic plate (34); the fixing block (31) is fixed to both sides of one end of the extrusion tube (12), the vertical rod (32) is inserted into the top of the fixing block (31), the placement box (33) is fixed between the upper inner sides of the vertical rod (32), and the magnetic plate (34) is magnetically attracted to the top of the placement box (33).

6. The high-strength columnar activated carbon forming device according to claim 5, characterized in that: The magnetic plate (34) is fixedly connected to the outer plate (35) on both sides. The magnetic plate (34) is snapped into the top of the placement box (33) through the outer plate (35). The top of the fixing block (31) has an insertion groove (37) at the insertion point with the vertical rod (32).

7. The high-strength columnar activated carbon forming device according to claim 5, characterized in that: The bottom inner side of the placement box (33) is fixedly connected to a limiting plate (36). The limiting plates (36) are set in a group, and the inner sides of the limiting plates (36) are engaged with the shaping plate (14).