Aluminum profile oxidation workshop aluminum profile loading and conveying device

Abstract

The utility model relates to aluminium material conveying technical field, and disclose a kind of aluminium profile oxidation workshop aluminium profile feeding conveyor, including installation base, the top of installation base is provided with conveying platform, the inside of conveying platform is equipped with conveyor belt equipment, the inside of installation base is equipped with motor for driving the rotation of the inside track of conveying platform, the top of conveying platform is provided with support frame, in the present application, by the installation clamping seat of clamping type structure, the guide angle of two straightening plates can be adjusted, after straightening plate adjustment is finished, by limit sleeve ring one and limit sleeve ring two rotary locking, when the aluminium material is conveyed, aluminium material will contact and collide with straightening roller between two adjacent straightening plates, under the traction of the inside track of conveying platform, aluminium material will be guided to the central part of track, avoid material deviation, reduce the burden of staff, improve conveying efficiency.

Description

Technical Field

[0001] This utility model relates to the field of aluminum material transportation technology, and in particular to an aluminum profile feeding and conveying device in an aluminum profile anodizing workshop. Background Technology

[0002] In the production and processing of aluminum profiles, due to the different processing steps involved, it is necessary to transfer aluminum profiles from one processing workshop to another, or to transfer the processed aluminum profiles to the warehouse. However, in actual use, the aluminum profiles may shift when feeding the conveyor rollers or conveyor belts, which is inconvenient for subsequent packaging processes. Therefore, an aluminum profile feeding and conveying device for the aluminum profile anodizing workshop is proposed. Utility Model Content

[0003] The present invention aims to solve the technical problems existing in the prior art and provides an aluminum profile feeding and conveying device for an aluminum profile anodizing workshop.

[0004] To achieve the above objectives, this utility model adopts the following technical solution, including a mounting base, a conveyor platform above the mounting base, a conveyor belt device installed inside the conveyor platform, a motor for driving the internal conveyor belt to rotate inside the mounting base, a support frame above the conveyor platform, mounting brackets on both sides of the support frame, the mounting brackets being concave structures that are fitted onto the left and right side walls of the conveyor platform, an adjustment handle inserted below the mounting brackets, an anti-slip pad for anti-slip purposes installed on the inner upper surface of the mounting brackets, and a center opening at the top of the mounting brackets. The support frame has two angled structures at its lower ends, the size of which corresponds to the internal size of the slot. The surface of the support frame has evenly spaced mounting holes. A straightening plate is mounted below the support frame via a mounting column. The outer diameter of the mounting column corresponds to the inner diameter of the mounting holes. The top of the mounting column is a threaded column structure. Two separate limiting rings, a second and a first, are fitted onto the outside of the mounting column. Rubber pads are provided on the sides of the limiting rings that are close to each other. The limiting rings are located on the upper and lower sides of the support frame, respectively.

[0005] Furthermore, the correction plate is a long plate structure, and there are slots inside both ends of the correction plate. Correction rollers are installed inside the slots at equal intervals, and the surface of the correction rollers extends to the outside of the correction plate.

[0006] Furthermore, a locking hole is provided at the center of the bottom surface of the access card slot. After the two ends of the support frame are inserted into the access card slot, the positions of the mating hole and the locking hole correspond. The locking hole is threaded inside.

[0007] This utility model provides an aluminum profile feeding and conveying device for an aluminum profile anodizing workshop, which has the following beneficial effects:

[0008] 1. An aluminum profile feeding and conveying device for an aluminum profile anodizing workshop, comprising a straightening plate with freely repositionable straightening plates, straightening rollers arranged and installed in slots on both sides of the straightening plate, a limiting collar first being fitted onto the outside of a mounting column, the entire mounting column being inserted into the lower part of a support frame, and then a limiting collar second being fitted onto the top of the mounting column and rotated to adjust the height of the straightening plate so that the straightening plate contacts and maintains its position with the surface of the conveyor belt above the conveyor platform. The first and second limiting collars are rotated to bring them closer together and press against the upper and lower surfaces of the support frame, locking the position of the straightening plate. The installation position of the straightening plate can be changed according to the size of the aluminum material. The straightening rollers installed on the outside of the straightening plate cause the aluminum material to change position upon impact, concentrating the aluminum material falling on the conveyor platform track into the center of the track, reducing the occurrence of aluminum material deviation during the conveying process.

[0009] 2. An aluminum profile feeding and conveying device for an aluminum profile anodizing workshop, comprising a mounting bracket with a snap-fit ​​structure. After inserting the adjusting handle into the preset insertion hole on the top of the mounting bracket, two mounting brackets are snapped onto the outer sides of the conveying platform. The number of mounting brackets can be increased according to the length of the aluminum profile. After the mounting brackets are positioned, a support frame is straddled between the corresponding two mounting brackets. Then, straightening plates are installed below the support frame, away from each other. The guiding angle of the two straightening plates can be adjusted automatically. After the straightening plates are adjusted, they are locked by rotating the limiting collar one and the limiting collar two. When the aluminum profile is transported, when the aluminum profile passes between two adjacent straightening plates, it will come into contact with and collide with the straightening rollers. Under the traction of the conveyor belt inside the conveying platform, the aluminum profile will be guided and concentrated to the center of the conveyor belt, avoiding material deviation, reducing the burden on the workers, and improving the conveying efficiency. Attached Figure Description

[0010] The structures, proportions, sizes, etc. illustrated in this specification are only for the purpose of assisting those skilled in the art in understanding and reading the content disclosed in the specification, and are not intended to limit the conditions under which this utility model can be implemented, and therefore have no substantial technical significance.

[0011] Figure 1 This is a schematic diagram of the overall device;

[0012] Figure 2 This is a schematic diagram of the correction plate structure;

[0013] Figure 3 This is a schematic diagram of the mounting bracket structure;

[0014] Figure 4This is a schematic diagram of the support frame structure.

[0015] Legend:

[0016] 1. Mounting base; 2. Conveying platform; 3. Mounting bracket; 4. Support frame; 5. Correcting plate; 6. Snap-in slot; 7. Mounting column; 8. Limiting collar one; 9. Limiting collar two; 10. Correcting roller; 11. Adjusting handle; 12. Anti-slip pad; 13. Connecting slot; 14. Locking socket; 15. Mounting socket; 16. Connecting socket. Detailed Implementation

[0017] An aluminum profile feeding and conveying device for an aluminum profile anodizing workshop, such as Figures 1 to 4 As shown, the system includes a mounting base 1, a conveyor platform 2 above the mounting base 1, a conveyor belt device inside the conveyor platform 2, a motor that drives the internal track of the conveyor platform 2 to rotate inside the mounting base 1, a support frame 4 above the conveyor platform 2, mounting brackets 3 on both sides of the support frame 4, the mounting brackets 3 having a concave structure that are fitted onto the left and right side walls of the conveyor platform 2, an adjustment handle 11 inserted and installed below the mounting brackets 3, anti-slip pads 12 installed on the inner upper surface of the mounting brackets 3, an access slot 13 opened at the top center of the mounting brackets 3, the lower ends of the support frame 4 having a folded structure whose size corresponds to the inner size of the access slot 13, mounting holes 15 evenly spaced on the surface of the support frame 4, and a straightening plate 5 installed below the support frame 4.

[0018] The straightening plate 5 is a long plate structure. Both ends of the straightening plate 5 have slots 6 inside. The slots 6 are fitted with straightening rollers 10 arranged at equal intervals. The surfaces of the straightening rollers 10 extend to the outside of the straightening plate 5.

[0019] The top of the mounting column 7 is a threaded column structure. The external part of the mounting column 7 is fitted with two separate limiting collars 9 and 8. Rubber pads are provided on the side of the limiting collars 9 and 8 that are close to each other. The outer diameter of the mounting column 7 corresponds to the inner diameter of the mounting hole 15. The straightening plate 5 is installed below the support frame 4 through the mounting column 7. The limiting collars 9 and 8 are located on the upper and lower sides of the support frame 4, respectively. By rotating the limiting collars 8 and 9 to clamp them on the upper and lower sides of the support frame 4, the descent height of the entire straightening plate 5 can be fixed. When the straightening plate 5 contacts the track above the conveyor platform 2, during the material transportation process, multiple straightening rollers 10 will contact the material and guide the material to gather at the center of the track, reducing the occurrence of material falling off the track during the conveying process.

[0020] A locking hole 14 is provided at the center of the bottom surface of the access slot 13. After the two ends of the support frame 4 are inserted into the access slot 13, the positions of the mating hole 16 and the locking hole 14 are aligned. The locking hole 14 is threaded inside. After the mounting bracket 3 is clamped on the outer sides of the conveyor platform 2, the mounting bracket 3 is fixed by rotating the adjustment handle 11 to press against the bottom surface of the conveyor platform 2. After the support frame 4 is erected above the two mounting brackets 3, the correction plate 5 can be erected. The position of the mounting bracket 3 can be changed at any time to facilitate adding more mounting brackets 3.

[0021] The working principle of this utility model:

[0022] By using a straightening plate 5 with a freely repositionable design, straightening rollers 10 are arranged and installed in the slots 6 on both sides of the straightening plate 5. A first limiting collar 8 is fitted onto the outside of the mounting column 7, and then the entire mounting column 7 is inserted below the support frame 4. Next, a second limiting collar 9 is fitted onto the top of the mounting column 7 and rotated to adjust the height of the straightening plate 5 so that it contacts and maintains its position with the surface of the track above the conveyor platform 2. The first and second limiting collars 8 and 9 are rotated to press against the upper and lower surfaces of the support frame 4, locking the position of the straightening plate 5. The installation position of the straightening plate 5 can be modified according to the size of the aluminum material. The straightening rollers 10 installed on the outside of the straightening plate 5 cause the aluminum material to change position upon impact, concentrating the aluminum material falling above the track of the conveyor platform 2 into the center of the track, reducing the occurrence of aluminum material deviation during transmission.

[0023] By inserting the adjusting handle 11 into the pre-set hole at the top of the mounting bracket 3, which has a snap-fit ​​structure, two mounting brackets 3 are snapped onto the outer sides of the conveying platform 2. The number of mounting brackets 3 can be increased according to the length of the aluminum material. After the mounting brackets 3 are fixed in position, the support frame 4 is straddled between the two corresponding mounting brackets 3. Then, the straightening plates 5 are installed below the support frame 4, away from each other. The guiding angle of the two straightening plates 5 can be adjusted by themselves. After the straightening plates 5 are adjusted, they are locked by rotating the limiting collar 1 8 and the limiting collar 2 9. When the aluminum material is transported, it will come into contact with the straightening roller 10 when it passes between two adjacent straightening plates 5. Under the traction of the conveyor belt inside the conveying platform 2, the aluminum material will be guided and concentrated to the center of the conveyor belt, avoiding material deviation, reducing the burden on the workers, and improving the conveying efficiency.

[0024] 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 embodiments and descriptions in the specification 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 the claimed utility model.

Claims

1. An aluminum profile feeding and conveying device for an aluminum profile anodizing workshop, comprising a mounting base (1), a conveying platform (2) disposed above the mounting base (1), a conveyor belt device installed inside the conveying platform (2), a motor for driving the internal track of the conveying platform (2) to rotate installed inside the mounting base (1), and a support frame (4) disposed above the conveying platform (2), characterized in that: The support frame (4) is equipped with mounting brackets (3) on both sides. The mounting brackets (3) are concave structures that are fitted onto the left and right side walls of the conveying platform (2). An adjustment handle (11) is inserted and installed below the mounting brackets (3). Anti-slip pads (12) are installed on the upper inner surface of the mounting brackets (3). An access slot (13) is provided at the top center of the mounting brackets (3). The two ends of the support frame (4) have angled structures whose size corresponds to the inner size of the access slot (13). The surface of the support frame (4) is provided with equidistant mounting holes (15). A straightening plate (5) is installed below the support frame (4). The straightening plate (5) is installed below the support frame (4) by a mounting column (7). The outer diameter of the mounting column (7) corresponds to the inner diameter of the mounting hole (15). The top of the mounting column (7) is a threaded column structure. The mounting column (7) is fitted with two separate limiting rings (9) and one limiting ring (8). Rubber pads are provided on the side of the two limiting rings (9) and one limiting ring (8) that are close to each other. The two limiting rings (9) and one limiting ring (8) are located on the upper and lower sides of the support frame (4) respectively.

2. The aluminum profile feeding and conveying device for an aluminum profile anodizing workshop according to claim 1, characterized in that: The correction plate (5) is a long plate structure. Both ends of the correction plate (5) are provided with slots (6). The slots (6) are equipped with equidistant correction rollers (10). The surface of the correction rollers (10) extends to the outside of the correction plate (5).

3. The aluminum profile feeding and conveying device for an aluminum profile anodizing workshop according to claim 1, characterized in that: A locking hole (14) is provided at the center of the bottom surface inside the access card slot (13). After the two ends of the support frame (4) are inserted into the inside of the access card slot (13), the docking hole (16) corresponds to the locking hole (14). The locking hole (14) is threaded inside.

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