A melt-side shaft furnace for recycling aluminum from a zip-top can

By designing a melting side well furnace body, a vibrating feeding mechanism, and a vortex pump stirring system, the aluminum recycling furnace for aluminum cans has solved the problems of high heat loss and high can burn-off rate in existing technologies, achieving smokeless rapid melting and efficient production.

CN224398293UActive Publication Date: 2026-06-23INSIDE IND TECHNOLOGY (JIANGSU) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
INSIDE IND TECHNOLOGY (JIANGSU) CO LTD
Filing Date
2025-06-23
Publication Date
2026-06-23

Smart Images

  • Figure CN224398293U_ABST
    Figure CN224398293U_ABST
Patent Text Reader

Abstract

The utility model discloses a kind of easy open can regenerative aluminium's melting side well furnace, including melting side well furnace body, melting side well furnace body is arranged in the side of heat preservation main furnace body, and melting side well furnace body and heat preservation main furnace body are communicated, vibration feeding mechanism is arranged in the side of melting side well furnace body, a plurality of heat accumulation type combustor is arranged in the side of heat preservation main furnace body, the utility model is equipped with melting side well furnace body in the side of heat preservation main furnace body, power room and vortex chamber are equipped with intercommunication on melting side well furnace body, vortex screw plate is equipped in vortex chamber, vortex pump is equipped in power room, and vibration feeding mechanism is equipped with on the outside corresponding vortex chamber on melting side well furnace body, paint stripping waste easy open can is rolled into molten aluminium liquid bottom under vortex effect, realize smokeless rapid melting, need not open furnace door to throw material, reduce heat energy loss, and external oxygen cannot enter heat preservation main furnace body, reduce easy open can burning loss rate, improve the melting effect of easy open can regenerative aluminium.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model belongs to the field of aluminum melting technology for recycled aluminum cans, and specifically relates to a side well furnace for melting recycled aluminum cans. Background Technology

[0002] The recycling of aluminum from aluminum cans is a key process in the recycling of aluminum resources. By recycling and regenerating waste aluminum cans, the efficient recycling of aluminum materials can be achieved, while reducing energy consumption and environmental burden.

[0003] Existing aluminum can recycling furnaces mostly use a single furnace body structure. When feeding materials into the furnace body, the furnace door needs to be opened for feeding operations, which causes heat to escape from the furnace body and results in a large loss of heat energy. In addition, external oxygen enters the furnace body, resulting in a high rate of aluminum can metal burning inside the furnace body. This cannot meet the production requirements of aluminum can recycling. Therefore, we propose a side shaft furnace for aluminum can recycling. Utility Model Content

[0004] The purpose of this invention is to provide a side well furnace for melting recycled aluminum from aluminum cans, in order to solve the problems mentioned in the background art.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a side-well furnace for melting recycled aluminum from aluminum cans, comprising:

[0006] A melting side well furnace body is provided on one side of the insulated main furnace body, and the melting side well furnace body is connected to the insulated main furnace body;

[0007] A vibrating feeding mechanism is provided on one side of the melting side well furnace body for vibratingly conveying depainted waste aluminum cans into the melting side well furnace body;

[0008] A number of regenerative burners are provided, and the regenerative burners are arranged on one side of the insulated main furnace body.

[0009] Preferably, the molten side well furnace body is provided with a power chamber and a vortex chamber, and the power chamber and the vortex chamber are connected to each other.

[0010] Preferably, the vortex chamber is provided with a vortex spiral plate.

[0011] Preferably, a vortex pump is provided in the power chamber, which is used to rotate and stir the molten aluminum in the power chamber.

[0012] Preferably, a furnace door is provided on one side of the heat-insulating main furnace body via a hydraulic lifting mechanism.

[0013] Preferably, a ramp is provided inside the main insulated furnace body on the side corresponding to the furnace door.

[0014] Preferably, the vibratory feeding mechanism is located on the outer side of the vortex chamber on the molten side well furnace body.

[0015] Preferably, the vibratory feeding mechanism includes a fixed support, a conveying frame plate, and a vibratory motor;

[0016] The material conveying frame is inclinedly mounted on the fixed support, and the end of the material conveying frame facing the vortex chamber has a tapered structure that gradually narrows. The vibration motor is located at the bottom of the material conveying frame.

[0017] Compared with the prior art, the beneficial effects of this utility model are:

[0018] This invention features a melting side well furnace body on one side of the main insulated furnace body. The melting side well furnace body has a connected power chamber and a vortex chamber. The vortex chamber contains a vortex spiral plate, and the power chamber contains a vortex pump. A vibrating feeding mechanism is located on the outer side of the vortex chamber corresponding to the melting side well furnace body. In use, waste aluminum cans with peeled paint are conveyed onto a conveying frame plate. A vibrating motor drives the conveying frame plate to vibrate, causing the waste aluminum cans on the conveying frame plate to vibrate and be conveyed into the vortex chamber. The vortex pump drives the stirring of the melting side well furnace body in the power chamber. The molten aluminum is stirred and rotated by a vortex pump, which transports the molten aluminum in the power chamber to the vortex chamber. In the vortex chamber, a vortex is formed by the vortex spiral plate, causing the paint-removed waste aluminum cans that are transported into the vortex chamber to be drawn into the bottom of the molten aluminum under the action of the vortex. This achieves smokeless and rapid melting, eliminating the need to open the furnace door to feed materials, reducing heat loss, and preventing external oxygen from entering the heat-insulating main furnace body, thus reducing the aluminum can burn-off rate and improving the melting effect of recycled aluminum cans, meeting the production requirements of recycled aluminum can melting. Attached Figure Description

[0019] Figure 1 This is a schematic diagram of the overall three-dimensional structure of this utility model;

[0020] Figure 2 This is a three-dimensional structural diagram of the melting side shaft furnace body of this utility model;

[0021] Figure 3 This is a top sectional view of the present invention.

[0022] Figure 4 This is a side sectional view of the present invention.

[0023] Figure 5 This is a top sectional view of the molten side shaft furnace body of this utility model.

[0024] In the diagram: 1. Melting side shaft furnace body; 101. Power chamber; 102. Vortex chamber; 103. Vortex spiral plate; 104. Vortex pump; 2. Insulated main furnace body; 201. Inclined slope; 3. Vibrating feeding mechanism; 301. Fixed support; 302. Conveying frame plate; 303. Vibrating motor; 4. Regenerative burner; 5. Furnace door. Detailed Implementation

[0025] 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.

[0026] Please see Figures 1-5 The side well furnace for melting recycled aluminum from aluminum cans provided by this utility model includes:

[0027] A molten side well furnace body 1 is located on one side of the insulated main furnace body 2 and is connected to the insulated main furnace body 2. A power chamber 101 and a vortex chamber 102 are provided on the molten side well furnace body 1 and are connected to each other. A vortex spiral plate 103 is provided in the vortex chamber 102 and a vortex pump 104 is provided in the power chamber 101. The vortex pump 104 is used to rotate and stir the molten aluminum liquid in the power chamber 101. A furnace door 5 is provided on one side of the insulated main furnace body 2 through a hydraulic lifting mechanism.

[0028] A vibrating feeding mechanism 3 is installed on one side of the melting side well furnace body 1. It is used to vibrately convey the de-painted waste aluminum cans into the melting side well furnace body 1. The vibrating feeding mechanism 3 is installed on the outer side of the vortex chamber 102 on the melting side well furnace body 1. The vibrating feeding mechanism 3 includes a fixed support 301, a conveying frame plate 302 and a vibrating motor 303. The conveying frame plate 302 is inclinedly installed on the fixed support 301, and the end of the conveying frame plate 302 facing the vortex chamber 102 has a tapered structure that gradually narrows. The vibrating motor 303 is installed at the bottom of the conveying frame plate 302.

[0029] There are four regenerative burners 4, which are located on one side of the insulated main furnace body 2.

[0030] This invention features a melting side well furnace body 1 on one side of the main insulated furnace body 2. The melting side well furnace body 1 has a connected power chamber 101 and a vortex chamber 102. A vortex spiral plate 103 is installed inside the vortex chamber 102, and a vortex pump 104 is installed inside the power chamber 101. A vibrating feeding mechanism 3 is also installed on the outer side of the melting side well furnace body 1 corresponding to the vortex chamber 102. In use, waste aluminum cans with peeled paint are conveyed onto a conveying frame plate 302. The vibrating motor 303 drives the conveying frame plate 302 to vibrate, causing the waste aluminum cans with peeled paint on the conveying frame plate 302 to vibrate and be conveyed into the vortex chamber 102. The vortex pump 104... The molten aluminum in the driving stirring chamber 101 is transported to the vortex chamber 102 by the stirring rotation of the vortex pump 104. In the vortex chamber 102, the vortex is formed by the vortex spiral plate 103, causing the paint-removed waste aluminum cans transported into the vortex chamber 102 to be drawn into the bottom of the molten aluminum under the action of the vortex. This achieves smokeless and rapid melting, eliminating the need to open the furnace door 5 for feeding, reducing heat loss, and preventing external oxygen from entering the heat-insulating main furnace body 2, thus reducing the aluminum can burn-off rate and improving the melting effect of recycled aluminum cans, meeting the production requirements for melting recycled aluminum cans.

[0031] In this embodiment, as Figure 4 As shown, a ramp 201 is provided inside the main insulated furnace body 2 on one side corresponding to the furnace door 5 to facilitate cleaning of the molten slag inside the main insulated furnace body 2.

[0032] In summary, the method of using the side well furnace for melting recycled aluminum cans provided in this embodiment is as follows: During use, the depainted waste aluminum cans are conveyed to the conveying frame plate 302. The vibration motor 303 drives the conveying frame plate 302 to vibrate, causing the depainted waste aluminum cans on the conveying frame plate 302 to be conveyed to the vortex chamber 102. The vortex pump 104 drives the stirring of the molten aluminum liquid in the stirring power chamber 101. Through the stirring and rotation of the vortex pump 104, the molten aluminum liquid in the power chamber 101 is conveyed to the vortex chamber 102. In the vortex chamber 102, the vortex is formed by the vortex spiral plate 103, causing the depainted waste aluminum cans conveyed into the vortex chamber 102 to be drawn into the bottom of the molten aluminum liquid under the action of the vortex, thus achieving smokeless and rapid melting.

[0033] Although embodiments of the present invention 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 invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A side-well furnace for melting recycled aluminum from aluminum cans, characterized in that, include: A melting side well furnace body (1) is provided on one side of the heat-insulating main furnace body (2), and the melting side well furnace body (1) and the heat-insulating main furnace body (2) are connected. Vibrating feeding mechanism (3), the vibrating feeding mechanism (3) is set on one side of the melting side well furnace body (1) and is used to vibrately convey the depainted waste aluminum cans into the melting side well furnace body (1); A regenerative burner (4) is provided, and the regenerative burner (4) is provided on one side of the heat-insulating main furnace body (2).

2. The side-well furnace for melting recycled aluminum from aluminum cans according to claim 1, characterized in that: The molten side well furnace body (1) is provided with a power chamber (101) and a vortex chamber (102), and the power chamber (101) and the vortex chamber (102) are connected to each other.

3. The side-well furnace for melting recycled aluminum from aluminum cans according to claim 2, characterized in that: The vortex chamber (102) is equipped with a vortex spiral plate (103).

4. The side-well furnace for melting recycled aluminum from aluminum cans according to claim 2, characterized in that: A vortex pump (104) is installed in the power chamber (101), and the vortex pump (104) is used to rotate and stir the molten aluminum liquid in the power chamber (101).

5. A side-well furnace for melting recycled aluminum from aluminum cans according to claim 1, characterized in that: The main insulated furnace body (2) has a furnace door (5) on one side via a hydraulic lifting mechanism.

6. A side-well furnace for melting recycled aluminum from aluminum cans according to claim 5, characterized in that: The main insulated furnace body (2) has a ramp (201) on the side corresponding to the furnace door (5).

7. A side-well furnace for melting recycled aluminum from aluminum cans according to claim 2, characterized in that: The vibrating feeding mechanism (3) is located on the outside of the vortex chamber (102) on the molten side well furnace body (1).

8. A side-well furnace for melting recycled aluminum from aluminum cans according to claim 7, characterized in that: The vibratory feeding mechanism (3) includes a fixed bracket (301), a feeding frame plate (302), and a vibratory motor (303). The material conveying frame plate (302) is inclinedly arranged on the fixed bracket (301), and the end of the material conveying frame plate (302) facing the vortex chamber (102) is a tapered structure that gradually narrows. The vibration motor (303) is arranged at the bottom of the material conveying frame plate (302).