Aluminum bar heating furnace facilitating feeding and discharging

By introducing inclined chute plates and support structures into the aluminum rod heating furnace, combined with a crawler design and electric conveyor, the problem of unstable loading and unloading of aluminum rods in the heating furnace was solved, achieving stable rolling and convenient heating of aluminum rods.

CN224340642UActive Publication Date: 2026-06-09SHENYANG WANGLIDE METAL MATERIAL CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENYANG WANGLIDE METAL MATERIAL CO LTD
Filing Date
2025-07-31
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Aluminum bars are prone to deflection during the loading and unloading process in the heating furnace, affecting the stability of loading and the heating effect.

Method used

An aluminum rod heating furnace structure was designed, including a furnace body, a material box, an inclined groove plate, a support column, a toothed roller, and a servo motor. The inclined groove plate and the support column work together to achieve stable rolling and limiting of the aluminum rod. The crawler structure and electric conveying method ensure that the aluminum rod rolls stably into the furnace body and is heated conveniently.

Benefits of technology

This improves the stability of aluminum rod loading and unloading in the heating furnace, reduces the risk of aluminum rod deviation, and enhances the convenience and efficiency of the heating process.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to aluminium bar heating furnace technical field, and specifically is a kind of aluminium bar heating furnace of convenient feeding and discharging, including rack, the furnace body for aluminium bar heating is assembled to the top surface of rack, and the top surface of rack is equipped with the material box for containing material by bolt assembly, the inclined chute plate for guiding is assembled between the material outlet end of material box and furnace body feed end, and the frame seat for supporting is assembled to the bottom end surface of inclined chute plate;In the process of using aluminium bar heating furnace, the aluminium bar of flat laying in material box can roll along inclined chute plate, and the column inside inclined chute plate is conveniently moved and drives the aluminium bar to roll displacement, so that aluminium bar can be set apart and more stably rolled into furnace body inside, conveniently heating and reducing the condition that aluminium bar appears to deviate horizontally in the process of rolling.
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Description

Technical Field

[0001] This utility model relates to the field of aluminum rod heating furnace technology, specifically to an aluminum rod heating furnace that facilitates loading and unloading. Background Technology

[0002] Heating aluminum rods is typically used to alter their physical properties or shape, or for specific processing steps. In general industrial production, heating furnaces are used. Heating aluminum rods can improve their strength, hardness, and corrosion resistance. Patent number CN202421330426.9 discloses an aluminum rod heating furnace that facilitates loading and unloading. As the aluminum rod rolls within the chute, its outer wall contacts the outer wall of a sticky roller, pushing the roller and causing the connecting frame to move upwards. Simultaneously, the spring is compressed, creating a rebound force that makes the sticky roller and the outer wall of the aluminum rod fit more closely, generating friction. When the aluminum rod rolls past the sticky roller, the roller rolls in the opposite direction, removing foreign matter from the aluminum rod's surface. This prevents the foreign matter from burning during heating, which could damage the surface quality of the aluminum rod and affect its material properties. However, during the use of the aluminum rod heating furnace, the aluminum rod is prone to deflection as it rolls along the chute, and may end up horizontally inside the chute, affecting the loading of the aluminum rod. Therefore, we propose an aluminum rod heating furnace that facilitates loading and unloading. Utility Model Content

[0003] To address the problems in the existing technology, this utility model provides an aluminum rod heating furnace that facilitates loading and unloading.

[0004] The technical solution adopted by this utility model to solve its technical problem is an aluminum rod heating furnace that facilitates loading and unloading. It includes a frame, a furnace body for heating aluminum rods is mounted on the top surface of the frame, and a material box for holding material is mounted on the top surface of the frame by bolts. A sloping chute plate for guiding flow is mounted between the material box discharge end and the furnace body inlet end, and a frame seat for support is mounted on the bottom surface of the sloping chute plate. A straight shaft for auxiliary support is mounted on the inner side of the frame seat through a bearing seat, and there are two sets of straight shafts. A toothed roller for transmission is mounted on the outer periphery of the straight shaft.

[0005] The toothed roller is fitted with a U-shaped strip for support, and there are multiple sets of U-shaped strips. The inner two sides of the U-shaped strip are hinged with adjustable lugs by a pivot. A horizontal bar plate is hinged between the two sets of lugs by a pivot and located between the two sets of U-shaped strips. The outer surface of the horizontal bar plate is bolted with a support column for limiting position, and there are two sets of support columns.

[0006] By adopting the above technical solution, during the use of the aluminum rod heating furnace, the flat aluminum rods in the material box can roll along the inclined plate, and the support column inside the inclined plate can be moved to drive the aluminum rods to roll and move, so that the aluminum rods can be set at intervals and roll into the furnace body more stably, which facilitates heating and reduces the situation of the aluminum rods shifting and moving horizontally during the rolling process.

[0007] When the aluminum rod rolls from the material box into the inclined plate, the support column can conveniently limit the aluminum rod, and at the same time, the rotating shaft inside the frame seat rotates, which drives the toothed roller to rotate. Then, the U-shaped strip that meshes with the toothed roller moves with the rotation of the toothed roller. Meanwhile, the lugs hinged to the inner side of the U-shaped strip are respectively hinged to the two sets of cross plates, so that multiple sets of U-shaped strips, lugs and cross plates form a track-like structure. Then, the cross plates can conveniently drive the support column to move and allow the support column to slide in the inclined plate, thereby facilitating the rolling of the aluminum rod. This allows the aluminum rod to roll more stably into the furnace body for heating, and the electric conveying method is more convenient.

[0008] Specifically, the inner bottom surface of the inclined plate is provided with sliding holes that fit with the support column, and there are two sets of sliding holes.

[0009] By adopting the above technical solution, the sliding displacement support can easily move along the sliding hole, thereby more stably pushing the aluminum rod to move. At the same time, the spaced support can separate multiple groups of aluminum rods, making it easier for the subsequent cleaning structure of the heating furnace to clean the aluminum rods more stably.

[0010] Specifically, a reducer connected to a direct shaft is mounted on the outer wall surface of the frame, and a servo motor is mounted on the power input end of the reducer.

[0011] By adopting the above technical solution, the servo motor can easily drive the linear shaft to rotate under the operation of the reducer, thus providing it with power.

[0012] Specifically, the outer circumference of the toothed roller is integrally constructed with arc-shaped strips that fit with the crossbar, and there are multiple sets of arc-shaped strips.

[0013] By adopting the above technical solution, the multiple sets of arc-shaped strips on the outer periphery of the toothed roller and the grooves on the outer periphery of the crossbar plate fit together, enabling the toothed roller to fit together more stably with the crossbar plate and drive its displacement operation, which facilitates the movement of the spaced support columns.

[0014] Specifically, the outer wall surface of the material box is equipped with a controller that is electrically connected to the servo motor.

[0015] By adopting the above technical solution, the controller can easily control the operation of the servo motor and the heating furnace, making the aluminum rod heating furnace more convenient to use.

[0016] Compared with the prior art, the present invention has the following beneficial effects:

[0017] 1. The technical solution of this application, through the design of the furnace body, material box, inclined groove plate and support column, allows the flat aluminum rods in the material box to roll along the inclined groove plate during the use of the aluminum rod heating furnace. The support column inside the inclined groove plate is easy to move and drives the aluminum rods to roll and move, so that the aluminum rods can be set at intervals and roll into the furnace body more stably, which facilitates heating and reduces the situation of the aluminum rods shifting and moving horizontally during the rolling process.

[0018] 2. The technical solution of this application, through the design of a frame base, straight shaft, toothed roller, U-shaped strips, ear blocks, and crossbars, allows the support column to conveniently limit the aluminum rod when it rolls from the material box into the inclined chute. At the same time, the rotating shaft inside the frame base rotates, causing the toothed roller to rotate. Subsequently, the U-shaped strips meshing with the toothed rollers move with the rotation of the toothed rollers. Meanwhile, the ear blocks hinged to the inner side of the U-shaped strips are hinged to two sets of crossbars, thus forming a track-like structure with multiple sets of U-shaped strips, ear blocks, and crossbars. The crossbars then conveniently drive the support column to move and allow the support column to slide in the inclined chute, thereby facilitating the rolling of the aluminum rod. This allows the aluminum rod to roll more stably into the furnace for heating, and the electric conveying method is more convenient. Attached Figure Description

[0019] The present invention will be further described below with reference to the accompanying drawings and embodiments.

[0020] Figure 1 This is an isometric view of the present invention;

[0021] Figure 2 This is a planar schematic diagram of the connection structure between the toothed roller and the U-shaped strip of this utility model;

[0022] Figure 3 This is a schematic diagram of the U-shaped strip structure of this utility model;

[0023] In the diagram: 1. Frame; 2. Furnace body; 3. Material box; 4. Inclined chute plate; 5. Frame base; 6. Straight shaft; 7. Toothed roller; 8. U-shaped strip; 9. Ear block; 10. Horizontal strip plate; 11. Sliding hole; 12. Support column; 13. Reducer; 14. Servo motor; 15. Arc strip; 16. Controller. Detailed Implementation

[0024] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the present utility model will be further described below in conjunction with specific embodiments.

[0025] Please see Figure 1-3This utility model provides a technical solution: an aluminum rod heating furnace for easy loading and unloading, comprising a frame 1, a furnace body 2 for heating aluminum rods mounted on the top surface of the frame 1, and a material box 3 for holding material mounted on the top surface of the frame 1 by bolts. A sloping chute 4 for guiding flow is mounted between the discharge end of the material box 3 and the inlet end of the furnace body 2, and a support frame 5 is mounted on the bottom surface of the sloping chute 4. An auxiliary support is mounted on the inner side of the support frame 5 via a bearing seat. A straight shaft 6, and there are two sets of straight shafts 6. A toothed roller 7 for transmission is mounted on the outer periphery of the straight shaft 6. A U-shaped strip 8 for support is fitted to the outer periphery of the toothed roller 7. There are multiple sets of U-shaped strips 8. The inner periphery of both sides of the U-shaped strip 8 is hinged with an adjusting lug 9 through a rotating shaft. A horizontal strip 10 located between the two sets of U-shaped strips 8 is hinged between the two sets of lugs 9 through a rotating shaft. A support column 12 for limiting is mounted on the outer periphery of the horizontal strip 10 by bolts. There are two sets of support columns 12.

[0026] When in use, during the use of the aluminum rod heating furnace, the flat aluminum rods in the material box 3 can roll along the inclined plate 4, and the support column 12 inside the inclined plate 4 can be moved to drive the aluminum rods to roll displacement, so that the aluminum rods can be set at intervals and roll into the furnace body 2 more stably, which facilitates heating and reduces the situation of the aluminum rods shifting horizontally during the rolling process.

[0027] When the aluminum rod rolls from the material box 3 into the inclined plate 4, the support column 12 can conveniently limit the aluminum rod, and at the same time, the rotating shaft inside the frame seat 5 rotates, which drives the toothed roller 7 to rotate. Then, the U-shaped strip 8 that meshes with the toothed roller 7 moves with the rotation of the toothed roller 7. At the same time, the ear block 9 hinged to the inner side of the U-shaped strip 8 is hinged to the two sets of horizontal strips 10 respectively, so that multiple sets of U-shaped strips 8, ear blocks 9 and horizontal strips 10 form a track-type structure. Then, the horizontal strips 10 can conveniently drive the support column 12 to move and make the support column 12 slide in the inclined plate 4, thereby facilitating the rolling of the aluminum rod, so that the aluminum rod can roll more stably into the furnace body 2 for heating. At the same time, the electric conveying method is more convenient.

[0028] like Figure 1 As shown, the inner bottom surface of the inclined groove plate 4 is provided with sliding holes 11 that fit with the support column 12, and there are two sets of sliding holes 11.

[0029] In use, the sliding displacement support column 12 can easily move along the sliding hole 11, thereby more stably pushing the aluminum rod to move. At the same time, the spaced support columns 12 can separate multiple groups of aluminum rods, making it easier for the subsequent cleaning structure of the heating furnace to clean the aluminum rods more stably.

[0030] like Figure 1As shown, a reducer 13 is mounted on the outer wall surface of the frame 5 and is connected to the direct shaft 6 for transmission, and a servo motor 14 is mounted on the power input end of the reducer 13.

[0031] In use, the servo motor 14 operates conveniently by driving the linear shaft 6 to rotate under the operation of the reducer 13, which facilitates the provision of power to it.

[0032] like Figure 2 As shown, the outer circumference of the toothed roller 7 is integrally constructed with arc-shaped strips 15 that fit with the crossbar plate 10, and there are multiple sets of arc-shaped strips 15.

[0033] In use, the multiple sets of arc-shaped strips 15 on the outer periphery of the toothed roller 7 fit into the grooves on the outer periphery of the crossbar 10, enabling the toothed roller 7 to fit into the crossbar 10 more stably and drive its displacement operation, which facilitates the movement of the spaced support columns 12.

[0034] like Figure 1 As shown, a controller 16 electrically connected to the servo motor 14 is mounted on the outer wall surface of the material box 3.

[0035] When in use, the controller 16 can easily control the operation of the servo motor 14 and the heating furnace, making the aluminum rod heating furnace more convenient to use.

[0036] The working principle and usage process of this utility model are as follows: In use, first, install the corresponding structural components in suitable positions. During the use of the aluminum rod heating furnace, the flat aluminum rods in the material box 3 can roll along the inclined groove plate 4. The support column 12 inside the inclined groove plate 4 can easily move and drive the aluminum rods to roll and shift, allowing the aluminum rods to be spaced out and roll more stably into the furnace body 2, facilitating heating and reducing the possibility of the aluminum rods shifting or becoming horizontal during rolling. When the aluminum rods roll from the material box 3 into the inclined groove plate 4, the support column 12 conveniently limits the aluminum rods, while simultaneously causing the rotating shaft inside the frame 5 to rotate, driving the toothed roller 7 to rotate. Subsequently, the U-shaped strip 8 meshing with the toothed roller 7 shifts with the rotation of the toothed roller 7, and simultaneously... The inner hinged lugs 9 are hinged to the two sets of crossbars 10, forming a track-like structure with multiple sets of U-shaped bars 8, lugs 9, and crossbars 10. The crossbars 10 then facilitate the displacement of the support column 12, allowing it to slide in the inclined slot plate 4. This facilitates the rolling of the aluminum rod, enabling it to roll more stably into the furnace body 2 for heating. The electric conveying method is also more convenient, and the sliding support column 12 can move along the sliding hole 11, thus stabilizing the movement of the aluminum rod. The spaced support columns 12 can separate multiple sets of aluminum rods, facilitating a more stable cleaning structure for the heating furnace and making the aluminum rod heating furnace more stable and convenient to use.

[0037] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The descriptions of the above embodiments and specifications are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of protection claimed by this utility model. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. An aluminum rod heating furnace for easy loading and unloading, characterized in that, The machine includes a frame (1), a furnace body (2) for heating aluminum rods is mounted on the top surface of the frame (1), and a material box (3) for holding material is mounted on the top surface of the frame (1) by bolts. A sloping chute (4) for guiding flow is mounted between the discharge end of the material box (3) and the feed end of the furnace body (2). A frame seat (5) for support is mounted on the bottom surface of the sloping chute (4). A straight shaft (6) for auxiliary support is mounted on the inner side of the frame seat (5) through a bearing seat. There are two sets of straight shafts (6). A toothed roller (7) for transmission is mounted on the outer periphery of the straight shaft (6). The toothed roller (7) is fitted with a U-shaped strip (8) for support, and there are multiple sets of U-shaped strips (8). The inner two sides of the U-shaped strip (8) are hinged with adjustable lugs (9) by a rotating shaft. A horizontal bar plate (10) located between the two sets of U-shaped strips (8) is hinged by a rotating shaft between the two sets of lugs (9). The outer surface of the horizontal bar plate (10) is fitted with a support column (12) for limiting by bolts, and there are two sets of support columns (12).

2. The aluminum rod heating furnace for easy loading and unloading according to claim 1, characterized in that, The inner bottom surface of the inclined plate (4) is provided with sliding holes (11) that fit with the support column (12), and there are two sets of sliding holes (11).

3. The aluminum rod heating furnace for easy loading and unloading according to claim 1, characterized in that, The outer wall surface of the frame (5) is equipped with a reducer (13) that is connected to the straight shaft (6) for transmission, and the power input end of the reducer (13) is equipped with a servo motor (14).

4. The aluminum rod heating furnace for easy loading and unloading according to claim 1, characterized in that, The outer circumference of the toothed roller (7) is integrally constructed with an arc-shaped strip (15) that matches the crossbar (10), and there are multiple sets of arc-shaped strips (15).

5. The aluminum rod heating furnace for easy loading and unloading according to claim 1, characterized in that, The outer wall surface of the material box (3) is equipped with a controller (16) that is electrically connected to the servo motor (14).