Feeding mechanism for a coating granulation plant

By introducing anti-clogging and stirring collection devices into the coating granulation equipment, the problem of poor adaptability of the feeding mechanism to materials with different characteristics has been solved, and the uniform conveying of materials and the stability of product quality have been improved.

CN224408099UActive Publication Date: 2026-06-26JIANGSU HONGLIU INTELLIGENT EQUIP MFG CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JIANGSU HONGLIU INTELLIGENT EQUIP MFG CO LTD
Filing Date
2025-07-24
Publication Date
2026-06-26

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  • Figure CN224408099U_ABST
    Figure CN224408099U_ABST
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Abstract

The utility model relates to granulating equipment technical field, concretely is the feeding mechanism for coating granulating equipment, including the granulating box, the top fixed connection of granulating box has the feed pipe, the bottom fixed connection of granulating box has the discharge pipe, the bottom of discharge pipe is provided with equipment main part. The utility model, through setting up anti -blocking device when through feed pipe and enter the inside of granulating box to material, through the output end of first motor drive movable shaft operation, in the process of operation will drive the rotation of the big gear, through the rotation of big gear drive screw rod operation, thereby make its movable block and the up and down movement of the plug rod, in this way to its material carry on the dredging and avoid the blockage, in through the rotation of pinion drive stirring roller operation, thereby make some big material carry out the primary crushing, can effectively avoid the material in the feed pipe and take place the accumulation or the agglomeration, guarantee the uniformity of feeding, this helps to promote the granularity consistency and quality stability of granulating product.
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Description

Technical Field

[0001] This utility model relates to the field of granulation equipment technology, and in particular to a feeding mechanism for coating granulation equipment. Background Technology

[0002] The coating granulation equipment involves feeding negative electrode particles and coating materials into the equipment chamber, stirring them, heating them to allow them to react fully, and then performing the coating granulation operation.

[0003] Existing technologies, such as CN222401357U, include a spiral high-temperature coating granulation device, comprising a main body and a stirring and heating mechanism. The stirring and heating mechanism is located above the main body. The main body includes a device body, a discharge pipe, a discharge pipe, a first protective cover, and a mounting frame. The discharge pipe is fixedly installed at the lower end of the device body, and the discharge pipe is fixedly installed at the lower end of the discharge pipe. The first protective cover is fixedly installed at the right end of the discharge pipe, and the mounting frame is fixedly installed at the inner end of the first protective cover. The main body also includes a rotary motor, a rotary shaft, and a spiral discharge roller. This spiral high-temperature coating granulation device, through the installation of the main body, improves the discharge capacity. In actual use, it can effectively discharge the granulated material in a spiral manner, ensuring uniform discharge and improving the efficiency of the spiral high-temperature coating granulation device.

[0004] Because the feeding mechanism of existing coating granulation equipment is difficult to adapt to materials with different characteristics during use, including granules with uneven particle size, as well as materials with stickiness and hygroscopicity, the material may adhere to or bridge on the pipe wall, thereby reducing the uniformity of feeding and thus reducing the consistency and quality stability of the product, improvements are needed. Utility Model Content

[0005] The purpose of this invention is to address the problem that some existing devices are difficult to adapt to materials with different characteristics during use, including granules with uneven particle size, as well as materials with stickiness and hygroscopicity. Materials may adhere to or bridge the pipe wall, thereby reducing the uniformity of feeding and consequently reducing the consistency and quality stability of the product. The invention proposes a feeding mechanism for coating granulation equipment.

[0006] To achieve the above objectives, the present invention adopts the following technical solution: a feeding mechanism for a coating granulation equipment, comprising a granulation box, a feeding pipe fixedly connected to the top of the granulation box, a discharge pipe fixedly connected to the bottom of the granulation box, a main body of the equipment disposed at the bottom of the discharge pipe, a collection frame fixedly connected to one side of the main body of the equipment, an anti-clogging device disposed inside the feeding pipe, the anti-clogging device comprising a mounting plate fixedly connected to the upper surface of the feeding pipe, a first motor disposed at the top of the mounting plate, a movable shaft fixedly connected to the output end of the first motor, a large gear fixedly connected to the surface of the movable shaft, a threaded rod fixedly connected to the bottom of the large gear, a movable block threadedly connected to the surface of the threaded rod, an insert rod fixedly connected to one side of the movable block, and the insert rod movably connected to the inside of the feeding pipe.

[0007] Furthermore, a small gear is meshed with one side of the large gear, and a stirring roller is fixedly connected inside the small gear. The stirring roller is located inside the feed pipe.

[0008] Furthermore, a base block is fixedly connected to the bottom of the threaded rod, and the stirring roller is rotatably connected to the inside of the feed pipe.

[0009] Furthermore, the main body of the equipment and the interior of the granulation box are equipped with a stirring and collecting device. The stirring and collecting device includes a second motor, which is located on one side of the granulation box. The output end of the second motor is fixedly connected to a stirring rod, which is rotatably connected to the interior of the granulation box.

[0010] Furthermore, stirring blades are fixedly connected to the surface of the stirring rod, a third motor is provided on the side of the main body of the equipment away from the collection box, a screw rod is fixedly connected to the output end of the third motor, the screw rod is located inside the main body of the equipment, and a limit plate is fixedly connected to one side of the collection box.

[0011] Furthermore, the surface of the limiting plate is provided with a trapezoidal groove, and a trapezoidal plate is movably connected inside the trapezoidal groove. The inside of the collection box is provided with mounting grooves on both sides.

[0012] Furthermore, an arc-shaped slot is fixedly connected inside the mounting groove, and springs are fixedly connected to both sides of the upper end of the trapezoidal plate. An arc-shaped block is fixedly connected to one side of the spring, and the arc-shaped block is engaged inside the arc-shaped slot.

[0013] Compared with the prior art, the advantages and positive effects of this utility model are as follows:

[0014] 1. In this utility model, by setting an anti-clogging device, when material enters the granulation chamber through the feed pipe, the output end of the first motor drives the movable shaft to rotate. During the rotation, the large gear rotates, and at the same time, the large gear drives the small gear to rotate. The rotation of the large gear drives the threaded rod to rotate, thereby causing its movable block and insert rod to move up and down, thus guiding the material and preventing blockage. The rotation of the small gear drives the stirring roller to rotate, thereby initially crushing some large materials. This effectively prevents the material from accumulating or agglomerating in the feed pipe, ensuring that the material is continuously and stably poured into the granulation chamber. The anti-clogging device can maintain good adaptability to materials with different characteristics. Whether it is granular material with uneven particle size or material with stickiness and hygroscopicity, the device can prevent the material from adhering to or bridging on the pipe wall, ensuring the uniformity of feeding. This helps to improve the particle size consistency and quality stability of the granulated product.

[0015] 2. In this utility model, a stirring and collecting device is set up, which drives the stirring rod to rotate through the output end of the second motor, thereby causing the stirring blades to stir the material. The produced material is then discharged into the main body of the equipment through the discharge pipe. Then, the output end of the third motor drives the screw rod to rotate, thereby transporting the material into the collection box. Then, according to the needs, the trapezoidal plate moves up and down inside the trapezoidal groove. During the movement, the arc-shaped locking block is driven by the spring to engage inside the arc-shaped locking groove, thereby fixing the trapezoidal plate inside the limiting plate. The dynamic action of the stirring device can also reduce the adhesion of material to the pipe wall and reduce the risk of pipe blockage. It is especially suitable for processing materials with strong hygroscopicity or easy agglomeration, making the production more efficient. Attached Figure Description

[0016] Figure 1 This utility model provides a schematic diagram of the elevation structure of the feeding mechanism for a coating granulation equipment;

[0017] Figure 2 This utility model provides a schematic diagram of the anti-clogging device structure for the feeding mechanism of a coating granulation equipment;

[0018] Figure 3 This utility model provides a schematic diagram of the stirring and collecting device structure of the feeding mechanism for a coating granulation equipment;

[0019] Figure 4 This utility model provides a partial structural diagram of the feeding mechanism for a coating granulation equipment;

[0020] Figure 5 This is a partial structural diagram of the stirring and collecting device of the feeding mechanism for the coating granulation equipment proposed in this utility model.

[0021] Legend:

[0022] 1. Granulation box; 2. Feed pipe; 3. Discharge pipe; 4. Main body of equipment; 5. Collection box; 6. Anti-clogging device; 61. Mounting plate; 62. First motor; 63. Large gear; 64. Small gear; 65. Movable shaft; 66. Threaded rod; 67. Movable block; 68. Bottom block; 69. Insert rod; 610. Stirring roller; 7. Stirring and collecting device; 71. Second motor; 72. Stirring rod; 73. Stirring blade; 74. Third motor; 75. Spiral rod; 76. Limiting plate; 77. Trapezoidal groove; 78. Trapezoidal plate; 79. Mounting groove; 710. Arc-shaped slot; 711. Arc-shaped block; 712. Spring. Detailed Implementation

[0023] Please see Figure 1-5 This utility model provides a technical solution: a feeding mechanism for a coating granulation equipment, including a granulation box 1, a feeding pipe 2 fixedly connected to the top of the granulation box 1, a discharge pipe 3 fixedly connected to the bottom of the granulation box 1, a main body 4 of the equipment 4 at the bottom of the discharge pipe 3, a collection frame fixedly connected to one side of the main body 4, and an anti-clogging device 6 inside the feeding pipe 2.

[0024] The following section will explain the specific design and function of the anti-clogging device 6 and the stirring and collecting device 7.

[0025] In this embodiment: the anti-clogging device 6 includes a mounting plate 61, which is fixedly connected to the upper surface of the feed pipe 2. A first motor 62 is provided on the top of the mounting plate 61. A movable shaft 65 is fixedly connected to the output end of the first motor 62. A large gear 63 is fixedly connected to the surface of the movable shaft 65. A threaded rod 66 is fixedly connected to the bottom of the large gear 63. A movable block 67 is threadedly connected to the surface of the threaded rod 66. A plug rod 69 is fixedly connected to one side of the movable block 67.

[0026] Specifically, a small gear 64 is meshed with one side of the large gear 63, and a stirring roller 610 is fixedly connected inside the small gear 64.

[0027] Specifically, the bottom of the threaded rod 66 is fixedly connected to the bottom block 68, and the stirring roller 610 is rotatably connected to the inside of the feed pipe 2.

[0028] The effects achieved by the above components are as follows: by setting up the anti-clogging device 6, the rotation of the large gear 63 drives the threaded rod 66 to move, thereby causing the movable block 67 and the insert rod 69 to move up and down, thus guiding the material and avoiding blockage. The rotation of the small gear 64 drives the stirring roller 610 to move, thereby initially crushing some large materials, which can effectively prevent the material from accumulating or clumping in the feed pipe 2, thereby improving the uniformity of the device's transportation.

[0029] Specifically, the main body of the equipment 4 and the granulation box 1 are equipped with a stirring and collecting device 7. The stirring and collecting device 7 includes a second motor 71, which is located on one side of the granulation box 1. The output end of the second motor 71 is fixedly connected to a stirring rod 72, which is rotatably connected to the inside of the granulation box 1.

[0030] Specifically, a stirring blade 73 is fixedly connected to the surface of the stirring rod 72, a third motor 74 is provided on the side of the main body 4 away from the collection box 5, a screw rod 75 is fixedly connected to the output end of the third motor 74, and a limit plate 76 is fixedly connected to one side of the collection box 5.

[0031] Specifically, the surface of the limiting plate 76 is provided with a trapezoidal groove 77, and a trapezoidal plate 78 is movably connected inside the trapezoidal groove 77. The inside of the collection box 5 is provided with mounting grooves 79 on both sides.

[0032] Specifically, an arc-shaped slot 710 is fixedly connected inside the mounting slot 79, and springs 712 are fixedly connected to both sides of the upper end of the trapezoidal plate 78. An arc-shaped block 711 is fixedly connected to one side of the spring 712, and the arc-shaped block 711 is engaged inside the arc-shaped slot 710.

[0033] The effect achieved by the above components is as follows: by setting the output end of the second motor 71 of the stirring and collecting device 7 to drive the stirring rod 72 to rotate, and then by setting the output end of the third motor 74 to drive the screw rod 75 to rotate, thereby transporting the material into the collection box 5. Then, according to the needs, the trapezoidal plate 78 can be moved up and down inside the trapezoidal groove 77. While moving, the spring 712 can drive the arc-shaped locking block 711 to engage inside the arc-shaped locking groove 710, thereby fixing the trapezoidal plate 78 inside the limiting plate 76. This increases the application range of the device and improves the stability of the device.

[0034] Working principle:

[0035] When material enters the granulation chamber 1 through the feed pipe 2 by setting the anti-clogging device 6, the output end of the first motor 62 drives the movable shaft 65 to rotate. During the rotation, the large gear 63 rotates, and at the same time, the large gear 63 drives the small gear 64 to rotate. The rotation of the large gear 63 drives the threaded rod 66 to rotate, thereby causing the movable block 67 and the insert rod 69 to move up and down, thus guiding the material and preventing blockage. The rotation of the small gear 64 drives the stirring roller 610 to rotate, thereby initially crushing some large materials. This can effectively prevent the material from accumulating or agglomerating in the feed pipe 2, ensuring that the material is continuously and stably poured into the granulation chamber 1. The anti-clogging device 6 can maintain good adaptability to materials with different characteristics. Whether it is granular material with uneven particle size or material with stickiness and hygroscopicity, the device can prevent the material from adhering to or bridging on the pipe wall, ensuring the uniformity of feeding. This helps to improve the particle size consistency and quality stability of the granulated product.

[0036] By setting up a stirring and collecting device 7, the output end of the second motor 71 drives the stirring rod 72 to rotate, thereby causing the stirring blades 73 to stir the material. The produced material is then discharged into the main body of the equipment 4 through the discharge pipe 3. Then, the output end of the third motor 74 drives the screw rod 75 to rotate, thereby transporting the material into the collection box 5. Then, according to the needs, the trapezoidal plate 78 moves up and down inside the trapezoidal groove 77. During the movement, the spring 712 drives the arc-shaped locking block 711 to engage inside the arc-shaped locking groove 710, thereby fixing the trapezoidal plate 78 inside the limiting plate 76. The dynamic action of the stirring device can also reduce the adhesion of material to the pipe wall and reduce the risk of pipe blockage. It is especially suitable for processing materials with strong hygroscopicity or easy agglomeration, making the production more efficient.

Claims

1. A feeding mechanism for a coating granulation device, comprising a granulation box (1), characterized in that: The top of the granulation box (1) is fixedly connected to a feed pipe (2), the bottom of the granulation box (1) is fixedly connected to a discharge pipe (3), the bottom of the discharge pipe (3) is provided with a main body (4), a collection frame is fixedly connected to one side of the main body (4), an anti-clogging device (6) is provided inside the feed pipe (2), the anti-clogging device (6) includes a mounting plate (61), the mounting plate (61) is fixedly connected to the upper surface of the feed pipe (2), the top of the mounting plate (61) is provided with a first motor (62), the output end of the first motor (62) is fixedly connected to a movable shaft (65), the surface of the movable shaft (65) is fixedly connected to a large gear (63), the bottom of the large gear (63) is fixedly connected to a threaded rod (66), the surface of the threaded rod (66) is threadedly connected to a movable block (67), and one side of the movable block (67) is fixedly connected to an insert rod (69).

2. The feeding mechanism for the coating granulation equipment according to claim 1, characterized in that: A small gear (64) is meshed with one side of the large gear (63), and a stirring roller (610) is fixedly connected inside the small gear (64).

3. The feeding mechanism for the coating granulation equipment according to claim 2, characterized in that: The bottom of the threaded rod (66) is fixedly connected to a bottom block (68), and the stirring roller (610) is rotatably connected to the inside of the feed pipe (2).

4. The feeding mechanism for the coating granulation equipment according to claim 1, characterized in that: The main body (4) of the equipment and the granulation box (1) are equipped with a stirring and collecting device (7). The stirring and collecting device (7) includes a second motor (71). The second motor (71) is located on one side of the granulation box (1). The output end of the second motor (71) is fixedly connected to a stirring rod (72). The stirring rod (72) is rotatably connected to the inside of the granulation box (1).

5. The feeding mechanism for the coating granulation equipment according to claim 4, characterized in that: The surface of the stirring rod (72) is fixedly connected with stirring blades (73), and a third motor (74) is provided on the side of the main body of the equipment (4) away from the collection box (5). The output end of the third motor (74) is fixedly connected with a screw rod (75), and a limit plate (76) is fixedly connected to one side of the collection box (5).

6. The feeding mechanism for the coating granulation equipment according to claim 5, characterized in that: The surface of the limiting plate (76) is provided with a trapezoidal groove (77), and a trapezoidal plate (78) is movably connected inside the trapezoidal groove (77). The inside of the collection box (5) is provided with mounting grooves (79) on both sides.

7. The feeding mechanism for the coating granulation equipment according to claim 6, characterized in that: An arc-shaped slot (710) is fixedly connected inside the mounting groove (79). Springs (712) are fixedly connected to both sides of the upper end of the trapezoidal plate (78). An arc-shaped block (711) is fixedly connected to one side of the spring (712). The arc-shaped block (711) is engaged inside the arc-shaped slot (710).