Prebaked anode carbon block anti-oxidation spraying production line

Abstract

The utility model relates to anode carbon block processing field especially prebaked anode carbon block anti -oxidation spraying production line, including transmission frame, still including bottom plate, longitudinal shift subassembly, horizontal shift subassembly, support, mounting panel, sponge block, fixed ring and connecting rod, the inside lower position of transmission frame is provided with bottom plate, the upper surface of bottom plate is installed with longitudinal shift subassembly, the upside of longitudinal shift subassembly is provided with horizontal shift subassembly, and one end of support is connected with the removal end of horizontal shift subassembly, and the other end of support is provided with mounting panel, the utility model discloses through setting up sponge block, the upper surface of sponge block is in line with the bottom of transmission roll of transmission frame, and longitudinal shift subassembly and horizontal shift subassembly can drive support, mounting panel and sponge block to move in multidirection when operating, thereby when transmission roll rotates, can wipe the outer surface to improve the cleanliness of transmission roll surface, avoid the problem that the broken slag on anode carbon block surface is adhered on transmission roll surface, influences normal transportation.

Description

Technical Field

[0001] This utility model relates to the field of anode carbon block processing, and in particular to a prebaked anode carbon block anti-oxidation spraying production line. Background Technology

[0002] The prebaked anode carbon block anti-oxidation spraying device is an industrial equipment specifically used in the electrolytic aluminum production process to apply an anti-oxidation coating to the surface of prebaked anode carbon blocks. Its core function is to reduce the oxidation loss of the anode during the high-temperature electrolysis process by spraying a special coating, thereby extending its service life and reducing production costs.

[0003] The existing prebaked anode carbon block anti-oxidation spraying device does not have a cleaning structure for the drive roller during use. When the anode carbon blocks are transported on the surface of the drive roller, carbon block debris that falls off due to oxidation is easy to stick to the outer surface of the drive roller, affecting normal transmission.

[0004] Therefore, in view of the problem that the existing prebaked anode carbon block anti-oxidation spraying device cannot clean the outer surface of the transmission roller, and the outer surface is prone to sticking with debris, which affects the normal transmission, there is an urgent need to design a new type of prebaked anode carbon block anti-oxidation spraying production line. Utility Model Content

[0005] In order to overcome the problem that the existing prebaked anode carbon block anti-oxidation spraying device cannot clean the surface of the transmission roller, and that the outer surface is prone to sticking with debris, which affects the normal transmission.

[0006] The technical solution of this utility model is as follows: a prebaked anode carbon block anti-oxidation spraying production line, including a conveying frame; it also includes a base plate, a longitudinal moving component, a transverse moving component, a support rod, a mounting plate, sponge blocks, a fixing ring, and connecting rods. The base plate is located on the lower inner side of the conveying frame. The longitudinal moving component is installed on the upper surface of the base plate. The transverse moving component is located on the upper side of the longitudinal moving component. One end of the support rod is connected to the moving end of the transverse moving component. The other end of the support rod is equipped with a mounting plate. Five sponge blocks are evenly distributed on the upper surface of the mounting plate. A fixing ring is installed in the middle section of the outer surface of the support rod. Connecting rods are provided on both the front and rear sides of the outer surface of the fixing ring.

[0007] Preferably, by setting a sponge block, the upper surface of which is in contact with the bottom of the transmission roller of the transmission frame, the longitudinal and transverse moving components can drive the support rod, mounting plate, and sponge block to move in multiple directions during operation. This allows the outer surface of the transmission roller to be wiped when it rotates, thereby improving the cleanliness of the transmission roller surface and preventing the debris on the surface of the anode carbon block from adhering to the transmission roller surface and affecting normal transportation. This solves the problem that the existing prebaked anode carbon block anti-oxidation spraying device does not have a cleaning structure for the transmission roller during use, and the anode carbon block is transported on the surface of the transmission roller, and the falling debris easily adheres to the outer surface of the transmission roller, affecting normal transmission.

[0008] Preferably, the longitudinal movement assembly includes an electric guide rail and an electric slider; electric guide rails are provided on both the left and right sides of the upper surface of the conveying frame, and an electric slider is slidably connected to the outer surface of the electric guide rail, with the top of the electric slider connected to the bottom of the transverse movement assembly.

[0009] Preferably, the traverse assembly includes a mounting frame, a first drive motor, a bidirectional lead screw, and a movable seat; the upper surface of the two electric sliders is provided with the mounting frame, the inner left side of the mounting frame is embedded with the first drive motor, the output end of the first drive motor is connected to one end of the bidirectional lead screw, the other end of the bidirectional lead screw is rotatably connected to the right side of the inner surface of the mounting frame, and the outer surface of the bidirectional lead screw is threadedly connected to two symmetrical movable seats, the top surface of the movable seats is connected to the bottom surface of the support rod.

[0010] Preferably, a limit block is provided at the end of the connecting rod away from the support rod, and limit grooves are provided on both the front and rear sides of the upper surface of the mounting frame, with the limit block and the limit grooves being slidably connected.

[0011] Preferably, a spray chamber is provided in the middle of the upper surface of the conveyor frame. Fixing plates are provided on the front, back and top sides of the inner surface of the spray chamber. Multiple equally spaced nozzles are installed on one side of the fixing plates. A storage tank is installed on the top surface of the spray chamber.

[0012] Preferably, the top surface of the storage tank is provided with a top cover, and a stirring shaft is rotatably connected through the middle of the upper surface of the top cover.

[0013] Preferably, a driven gear is installed on the top surface of the stirring shaft, and a second drive motor is installed on the right side of the upper surface of the top cover. The output end of the second drive motor is connected to a driving gear, and the driving gear meshes with the driven gear.

[0014] The beneficial effects of this utility model are:

[0015] 1. By setting up a sponge block, the bottom of the transmission roller of the transmission frame is attached to the upper surface of the sponge block. Through the operation of the longitudinal and transverse components, the support rod, mounting plate, and sponge block can be moved in multiple directions. Thus, when the transmission roller rotates, the sponge block can wipe its outer surface, thereby improving the cleanliness of the transmission roller surface and preventing the debris on the surface of the anode carbon block from sticking to the transmission roller surface and affecting normal transportation. This solves the problem that the existing prebaked anode carbon block anti-oxidation spraying device does not have a cleaning structure for the transmission roller, and the anode carbon block is transported on the surface of the transmission roller, and the falling debris easily sticks to the outer surface of the transmission roller, affecting normal transmission. Attached Figure Description

[0016] Figure 1The diagram shown is a three-dimensional structural schematic of the prebaked anode carbon block anti-oxidation spraying production line of this utility model;

[0017] Figure 2 The diagram shown is a three-dimensional structural schematic of the storage tank of the prebaked anode carbon block anti-oxidation spraying production line of this utility model;

[0018] Figure 3 The diagram shown is a three-dimensional structural diagram of the base plate of the prebaked anode carbon block anti-oxidation spraying production line of this utility model;

[0019] Figure 4 The diagram shown is a three-dimensional structural schematic of the support rod of the prebaked anode carbon block anti-oxidation spraying production line of this utility model.

[0020] Explanation of reference numerals in the attached drawings: 1. Conveying frame; 2. Base plate; 301. Electric guide rail; 302. Electric slider; 401. Mounting frame; 402. First drive motor; 403. Two-way lead screw; 404. Moving seat; 5. Support rod; 6. Mounting plate; 7. Sponge block; 8. Fixing ring; 9. Connecting rod; 10. Limiting block; 11. Limiting groove; 12. Spray chamber; 13. Fixing plate; 14. Nozzle; 15. Storage tank; 16. Top cover; 17. Stirring shaft; 18. Driven gear; 19. Second drive motor; 20. Driving gear. Detailed Implementation

[0021] The present invention will be further described below with reference to the accompanying drawings and embodiments.

[0022] Please see Figures 1-4 This utility model provides an embodiment of a prebaked anode carbon block anti-oxidation spraying production line, including a conveying frame 1; it also includes a base plate 2, a longitudinal moving assembly, a transverse moving assembly, a support rod 5, a mounting plate 6, a sponge block 7, a fixing ring 8, and a connecting rod 9. The base plate 2 is located on the lower inner side of the conveying frame 1. The longitudinal moving assembly is mounted on the upper surface of the base plate 2. The transverse moving assembly is located on the upper side of the longitudinal moving assembly. The moving end of the transverse moving assembly is connected to one end of the support rod 5. The other end of the support rod 5 is equipped with the mounting plate 6. The upper surface of the mounting plate 6 is provided with five equally spaced sponge blocks. A fixing ring 8 is installed at the middle section of the outer surface of the sponge block 7 and the support rod 5. The front and rear sides of the outer surface of the fixing ring 8 are provided with connecting rods 9. By setting the sponge block 7, the upper surface of the sponge block 7 is in contact with the bottom of the transmission roller of the transmission frame. When the longitudinal and transverse components are in operation, they can drive the support rod 5, the mounting plate 6 and the sponge block 7 to move in multiple directions. Thus, when the transmission roller rotates, its outer surface can be wiped, thereby improving the cleanliness of the transmission roller surface and preventing the debris on the surface of the anode carbon block from sticking to the transmission roller surface and affecting normal transportation.

[0023] Please see Figures 1-4In this embodiment, the longitudinal movement component includes an electric guide rail 301 and an electric slider 302; electric guide rails 301 are provided on both the left and right sides of the upper surface of the conveying frame 1, and electric sliders 302 are slidably connected to the outer surface of the electric guide rails 301. The top of the electric sliders 302 is connected to the bottom of the transverse movement component. By setting the electric guide rails 301 and the electric sliders 302, the electric sliders 302 can slide on the outer surface of the electric guide rails 301, thereby driving the upper sponge block 7 to move back and forth. The transverse movement component includes a mounting frame 401, a first drive motor 402, a bidirectional lead screw 403, and a moving seat 404; the upper surface of the two electric sliders 302 is provided with the mounting frame 401, and the first drive motor 402 is embedded in the left side of the inner surface of the mounting frame 401. The output end of the first drive motor 402 is connected to one end of the bidirectional lead screw 403, and the other end of the bidirectional lead screw 403 is connected to the inner surface of the mounting frame 401. The right side of the support rod 5 is rotatably connected to a double-acting screw 403. Two symmetrical movable seats 404 are threadedly connected to the outer surface of the double-acting screw 403. The top surface of the movable seats 404 is connected to the bottom surface of the support rod 5. By setting a first drive motor 402, its output end can drive the double-acting screw 403 to rotate during operation. When the double-acting screw 403 rotates, it can drive the two movable seats 404 that are threaded with it to move left and right in opposite directions, thereby causing the upper sponge block 7 to move left and right. A limit block 10 is set at the end of the connecting rod 9 away from the support rod 5. Limit grooves 11 are opened on both the front and rear sides of the upper surface of the mounting frame 401. The limit block 10 is slidably connected to the limit groove 11. By setting the limit block 10 and the limit groove 11, the support rod 5 can drive the limit block 10 to slide inside the limit groove 11 when it moves left and right. The limit groove 11 can limit the sliding direction of the limit block 10, thereby improving the stability of the support rod 5 when it moves.

[0024] Please see Figures 1-4In this embodiment, a spray chamber 12 is provided at the middle position of the upper surface of the conveying frame 1. Fixing plates 13 are provided on the front, rear, and upper sides of the inner surface of the spray chamber 12. Multiple equally spaced nozzles 14 are installed on one side of the fixing plates 13. A storage tank 15 is installed on the top surface of the spray chamber 12. The storage tank 15 can be filled with anti-oxidation coating, which can be transported to the nozzles 14 via pipes and sprayed out in a mist form to cover the outer surface of the anode carbon block. A top cover 16 is provided on the top surface of the storage tank 15, and a stirring shaft 17 is rotatably connected through the middle position of the upper surface of the top cover 16. By setting up a stirring shaft 17, the paint inside the storage tank 15 can be stirred to prevent paint sedimentation. A driven gear 18 is installed on the top surface of the stirring shaft 17, and a second drive motor 19 is installed on the right side of the upper surface of the top cover 16. The output end of the second drive motor 19 is connected to a drive gear 20, which meshes with the driven gear 18. By setting up the second drive motor 19, its output end can drive the drive gear 20 to rotate during operation. When the drive gear 20 rotates, it can cooperate with the driven gear 18 to drive the stirring shaft 17 to rotate, thereby realizing automatic stirring of the paint inside the storage tank 15.

[0025] During operation, by setting up an electric guide rail 301 and an electric slider 302, the electric slider 302 can slide on the outer surface of the electric guide rail 301, thereby driving the upper sponge block 7 to move back and forth. By setting up a first drive motor 402, its output end can drive the bidirectional lead screw 403 to rotate during operation. When the bidirectional lead screw 403 rotates, it can drive the two moving seats 404 that are threaded with it to move left and right in opposite directions, thereby causing the upper sponge block 7 to move left and right. By setting up a limiting block 10 and a limiting groove 11, when the support rod 5 moves left and right, it can drive the limiting block 10 to slide inside the limiting groove 11. The limiting groove 11 can... The sliding direction of the limiting block 10 can be restricted to improve the stability of the support rod 5 during movement. By setting up a storage tank 15, the interior can be filled with anti-oxidation coating. The coating can be transported to the nozzle 14 through a pipeline and sprayed out in a mist form to cover the outer surface of the anode carbon block. By setting up a stirring shaft 17, the coating inside the storage tank 15 can be stirred to prevent the coating from settling. By setting up a second drive motor 19, its output end can drive the drive gear 20 to rotate during operation. When the drive gear 20 rotates, it can cooperate with the driven gear 18 to drive the stirring shaft 17 to rotate, thereby realizing the automatic stirring of the coating inside the storage tank 15.

[0026] Through the above steps, by setting up the sponge block 7, the bottom of the transmission roller of the transmission frame is attached to the upper surface of the sponge block 7. Through the operation of the longitudinal and transverse components, the support rod 5, the mounting plate 6 and the sponge block 7 can be driven to move in multiple directions. Thus, when the transmission roller rotates, the sponge block 7 can wipe its outer surface, thereby improving the cleanliness of the transmission roller surface and preventing the debris on the surface of the anode carbon block from sticking to the transmission roller surface and affecting normal transportation.

Claims

1. A prebaked anode carbon block anti-oxidation spraying production line, comprising a conveyor frame (1); characterized in that: It also includes a base plate (2), a longitudinal moving assembly, a transverse moving assembly, a support rod (5), a mounting plate (6), a sponge block (7), a fixing ring (8), and a connecting rod (9). The base plate (2) is located on the lower inner side of the conveying frame (1). The longitudinal moving assembly is installed on the upper surface of the base plate (2). The transverse moving assembly is located on the upper side of the longitudinal moving assembly. The moving end of the transverse moving assembly is connected to one end of the support rod (5). The other end of the support rod (5) is equipped with a mounting plate (6). Five sponge blocks (7) are evenly distributed on the upper surface of the mounting plate (6). The fixing ring (8) is installed in the middle section of the outer surface of the support rod (5). The connecting rod (9) is located on both the front and rear sides of the outer surface of the fixing ring (8).

2. The prebaked anode carbon block anti-oxidation spraying production line according to claim 1, characterized in that: The longitudinal movement assembly includes an electric guide rail (301) and an electric slider (302); the upper surface of the conveying frame (1) is provided with electric guide rails (301) on both the left and right sides, and the outer surface of the electric guide rail (301) is slidably connected to the electric slider (302), and the top of the electric slider (302) is connected to the bottom of the transverse movement assembly.

3. The prebaked anode carbon block anti-oxidation spraying production line according to claim 2, characterized in that: The transverse assembly includes a mounting frame (401), a first drive motor (402), a bidirectional lead screw (403), and a movable seat (404). The upper surface of the two electric sliders (302) is provided with the mounting frame (401). The first drive motor (402) is embedded in the left side of the inner surface of the mounting frame (401). The output end of the first drive motor (402) is connected to one end of the bidirectional lead screw (403). The other end of the bidirectional lead screw (403) is rotatably connected to the right side of the inner surface of the mounting frame (401). The outer surface of the bidirectional lead screw (403) is threaded with two symmetrical movable seats (404). The top surface of the movable seat (404) is connected to the bottom surface of the support rod (5).

4. The prebaked anode carbon block anti-oxidation spraying production line according to claim 3, characterized in that: A limit block (10) is provided at the end of the connecting rod (9) away from the support rod (5). Limit grooves (11) are opened on both the front and rear sides of the upper surface of the mounting frame (401). The limit block (10) and the limit groove (11) are slidably connected.

5. The prebaked anode carbon block anti-oxidation spraying production line according to claim 1, characterized in that: A spray chamber (12) is provided in the middle of the upper surface of the conveying frame (1). Fixing plates (13) are provided on the front, back and upper sides of the inner surface of the spray chamber (12). Multiple equally spaced nozzles (14) are installed on one side of the fixing plate (13). A storage tank (15) is installed on the top surface of the spray chamber (12).

6. The prebaked anode carbon block anti-oxidation spraying production line according to claim 5, characterized in that: The top surface of the storage tank (15) is provided with a top cover (16), and a stirring shaft (17) is rotatably connected through the middle of the upper surface of the top cover (16).

7. The prebaked anode carbon block anti-oxidation spraying production line according to claim 6, characterized in that: A driven gear (18) is installed on the top surface of the stirring shaft (17), and a second drive motor (19) is installed on the right side of the upper surface of the top cover (16). The output end of the second drive motor (19) is connected to a drive gear (20), and the drive gear (20) meshes with the driven gear (18).

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