Material tank for processing cable material

The motor-driven design of the spiral roller and linkage shaft solves the problem of inconvenient material unloading in cable material processing tanks, realizes rapid collection and mixing of cable materials, and improves the convenience of the unloading process and the quality of cable materials.

CN224492968UActive Publication Date: 2026-07-14JIANGSU SUKE NEW MATERIALS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JIANGSU SUKE NEW MATERIALS CO LTD
Filing Date
2025-09-08
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

The existing material tanks used for cable material processing are not convenient for quick collection when discharging cable material, resulting in inconvenience in the material unloading process.

Method used

The design employs a spiral roller and linkage shaft, combined with a motor drive, to achieve continuous and rapid feeding of cable materials and dual-station collection, while preventing adhesion through mixing blades.

Benefits of technology

It enables rapid and convenient feeding and collection of cable materials, reduces adhesion, and ensures the quality of cable materials.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224492968U_ABST
    Figure CN224492968U_ABST
Patent Text Reader

Abstract

The utility model discloses a kind of material tanks for cable material processing, including base, the central position of base top end is equipped with upper tank body, the bottom end of upper tank body extends to the inside of base and is equipped with lower tank body, the outer wall of lower tank body side is equipped with discharging machine body, load plate is equipped on the outer wall of base below discharging machine body, the side of load plate top end is equipped with transmission frame, screw rod is rotatably installed in the inside of transmission frame, the inner wall of transmission frame on the both sides of screw rod is all fixed with guide rod, the outer wall of screw rod is threadedly installed with two nut seats, the top end of nut seat is all equipped with component seat, component seat top end is placed with material box, the surface of transmission frame is installed with first motor. The utility model not only can continuously and quickly carry out discharging collection operation to cable material, to improve the convenience of material tank discharging, also reach the purpose of easily discharging cable material, and reduce the phenomenon that cable material is located in the inside of lower tank body and is bonded, to guarantee the quality of cable material.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the technical field of cable material processing equipment, specifically a material tank for cable material processing. Background Technology

[0002] In the cable manufacturing process, the storage, mixing and transportation of cable materials are key links. Therefore, the development of a material tank for cable material processing is of great practical significance in order to store and process the cable materials during processing.

[0003] A material tank for cable material processing, as described in reference announcement number CN221439229U, includes a support base on which the material tank is fixedly mounted. A purification component is fixedly mounted on one side of the top of the material tank. The purification component includes an exhaust pipe and an exhaust fan rotatably mounted inside the exhaust pipe. A drive shaft with a gearbox is fixedly mounted on the exhaust fan, and a pulley A is fixedly mounted at the end of the drive shaft. A pulley B, connected to pulley A via a belt drive, is fixedly mounted on the shaft of a motor located inside the material tank. The exhaust pipe is fixedly connected to a purification box via an outlet pipe. The material tank drives the pulley A below the drive shaft to rotate synchronously through the pulley B on the motor output end, thereby extracting harmful gases generated during the mixing of cable materials in the material tank through the exhaust fan and filtering them through the purification box before discharge, thus reducing injury to workers and improving their safety during operation. As can be seen from the above, although this material tank can be used well, it is usually inconvenient to quickly collect the discharged cable materials, making the material tank unloading process still somewhat inconvenient and often troubling users. Utility Model Content

[0004] The purpose of this utility model is to provide a material tank for cable material processing, so as to solve the problem mentioned in the background art that although the material tank can be used well, it is usually not convenient to quickly collect the discharged cable material, so that there are still some inconveniences in the material tank unloading process.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a material tank for cable material processing, comprising a base, an upper tank body located at the center of the top of the base, a lower tank body extending from the bottom of the upper tank body into the base, a feeding machine body located on the outer wall of one side of the lower tank body, one end of the feeding machine body communicating with the outer wall of the lower tank body, and the other end of the feeding machine body extending to the outside of the base, a bearing plate located on the outer wall of the base below the feeding machine body, a transmission frame located on one side of the top of the bearing plate, and a lead screw rotatably mounted inside the transmission frame, the lead screw having two... Guide rods are fixed on the inner wall of the transmission frame on each side. Two nut seats are threaded on the outer wall of the lead screw. The nut seats are movably connected to the guide rods. A part holder is provided at the top of each nut seat. A material box is placed at the top of the part holder. A first motor is installed on the surface of the transmission frame. One end of the first motor extends to the inner side of the transmission frame and is connected to one end of the lead screw. Universal wheels are installed at the corner positions at the bottom of the base. A control panel is installed on the outer wall of the base on one side of the unloading machine body. The output terminal of the single-chip microcomputer inside the control panel is electrically connected to the input terminal of the first motor.

[0006] Preferably, a discharge port is provided on one side of the bottom end of the feeding machine body, and the top end of the discharge port is connected to the bottom end of the feeding machine body. The discharge port is provided to discharge the cable material.

[0007] Preferably, a spiral roller is rotatably installed inside the feeding machine body, and a third motor is installed on the outer wall of the feeding machine body away from the lower tank. The input end of the third motor is electrically connected to the output end of the microcontroller inside the control panel. One end of the third motor extends into the interior of the feeding machine body and is connected to one end of the spiral roller. The spiral roller is driven to rotate by the third motor.

[0008] Preferably, the upper tank has an opening at the center of its top, with the bottom of the opening extending into the interior of the upper tank. The opening allows cable material to be injected into the upper tank for storage.

[0009] Preferably, a linkage shaft is rotatably installed at the center of the lower tank, and mixing blades are installed on the outer wall of the linkage shaft. The mixing blades are used to mix the cable material inside the lower tank.

[0010] Preferably, a second motor is installed at the bottom of the lower tank. The input end of the second motor is electrically connected to the output end of the microcontroller inside the control panel. The top end of the second motor extends into the interior of the lower tank and is connected to the bottom end of the linkage shaft. The second motor is configured to drive the linkage shaft to rotate.

[0011] Compared with the prior art, the beneficial effects of this utility model are: the material tank for cable material processing can not only continuously and quickly collect cable materials to improve the convenience of material tank discharge, but also achieve the purpose of easy discharge of cable materials, and reduce the phenomenon of cable materials sticking inside the lower tank body to ensure the quality of cable materials.

[0012] (1) The first motor drives the lead screw to rotate, so that the nut seat slides on the outer wall of the lead screw and the guide rod, so that the nut seat drives the material box to move back and forth through the placement seat. Since there are two material boxes, the two material boxes are moved back and forth to the bottom of the discharge port in turn, so that the discharged cable material can be collected in two stations in turn, and the cable material can be continuously and quickly discharged and collected, thereby improving the convenience of material tank discharge.

[0013] (2) The spiral roller is driven by the third motor to rotate. Since the left end of the feeding machine body is connected to the outer wall of the lower tank, the cable material inside the lower tank falls into the feeding machine body. The rotating spiral roller conveys the cable material to the right, so that the cable material can be discharged through the feeding port, thereby achieving the purpose of easy discharge of the cable material.

[0014] (3) The linkage shaft is driven by the second motor to rotate, which in turn drives the mixing blades to rotate. The mixing blades can then stir the cable material inside the lower tank to reduce the adhesion of the cable material inside the lower tank, thereby ensuring the quality of the cable material. Attached Figure Description

[0015] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0016] Figure 2 This is a frontal cross-sectional view of the present invention.

[0017] Figure 3 This is a top view of the lower tank structure of this utility model;

[0018] Figure 4 This utility model Figure 1 Enlarged structural diagram at point A in the middle.

[0019] In the diagram: 1. Base; 2. Casters; 3. Upper tank; 4. Tank opening; 5. Bearing plate; 6. Transmission frame; 7. First motor; 8. Lead screw; 9. Guide rod; 10. Nut seat; 11. Placement seat; 12. Material box; 13. Discharge machine body; 14. Third motor; 15. Discharge port; 16. Lower tank; 17. Second motor; 18. Linkage shaft; 19. Mixing blades; 20. Spiral roller; 21. Control panel. Detailed Implementation

[0020] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present utility model without creative effort are within the scope of protection of the present utility model.

[0021] Please see Figure 1-4 An embodiment of this utility model is provided: a material tank for cable material processing, including a base 1, an upper tank body 3 is provided at the center of the top of the base 1, a tank opening 4 is provided at the center of the top of the upper tank body 3, and the bottom end of the tank opening 4 extends into the interior of the upper tank body 3.

[0022] When in use, the cable material is injected into the upper tank 3 for storage through the opening 4.

[0023] The bottom end of the upper tank 3 extends into the interior of the base 1 and is provided with a lower tank 16. A linkage shaft 18 is rotatably installed at the center of the interior of the lower tank 16, and a mixing blade 19 is installed on the outer wall of the linkage shaft 18.

[0024] In use, the mixing blades 19 are designed to mix the cable material inside the lower tank 16.

[0025] A second motor 17 is installed at the bottom of the lower tank 16. The input end of the second motor 17 is electrically connected to the output end of the microcontroller inside the control panel 21. The top end of the second motor 17 extends into the interior of the lower tank 16 and is connected to the bottom end of the linkage shaft 18.

[0026] In use, the second motor 17 is configured to drive the linkage shaft 18 to rotate;

[0027] A feeding machine body 13 is provided on the outer wall of one side of the lower tank body 16. One end of the feeding machine body 13 is connected to the outer wall of the lower tank body 16, and the other end of the feeding machine body 13 extends to the outside of the base 1. A feeding port 15 is provided on one side of the bottom end of the feeding machine body 13, and the top end of the feeding port 15 is connected to the bottom end of the feeding machine body 13.

[0028] During use, the cable material is discharged through the feeding port 15.

[0029] A spiral roller 20 is rotatably installed inside the feeding machine body 13. A third motor 14 is installed on the outer wall of the feeding machine body 13 away from the lower tank 16. The input end of the third motor 14 is electrically connected to the output end of the microcontroller inside the control panel 21. One end of the third motor 14 extends into the interior of the feeding machine body 13 and is connected to one end of the spiral roller 20.

[0030] In use, the third motor 14 is set to drive the spiral roller 20 to rotate;

[0031] A bearing plate 5 is provided on the outer wall of the base 1 below the unloading machine body 13. A transmission frame 6 is provided on one side of the top of the bearing plate 5. A lead screw 8 is rotatably installed inside the transmission frame 6. Guide rods 9 are fixed on the inner walls of the transmission frame 6 on both sides of the lead screw 8. Two nut seats 10 are threaded on the outer wall of the lead screw 8. The nut seats 10 are movably connected to the guide rods 9. A part holder 11 is provided at the top of each nut seat 10. A material box 12 is placed at the top of the part holder 11. A first motor 7 is installed on the surface of the transmission frame 6. One end of the first motor 7 extends to the inner side of the transmission frame 6 and is connected to one end of the lead screw 8. Universal wheels 2 are installed at the corner positions at the bottom of the base 1. A control panel 21 is installed on the outer wall of the base 1 on one side of the unloading machine body 13. The output end of the microcontroller inside the control panel 21 is electrically connected to the input end of the first motor 7.

[0032] In this embodiment, the cable material is first injected into the upper tank 3 by opening the can opening 4. Since the top of the lower tank 16 is connected to the bottom of the upper tank 3, the cable material falls into the lower tank 16 due to gravity. Then, the can opening 4 is closed, thus sealing the cable material within the upper tank 3 and the lower tank 16. Next, the second motor 17 drives the linkage shaft 18 to rotate, causing the linkage shaft 18 to rotate the mixing blades 19. The mixing blades 19 then stir the cable material inside the lower tank 16, reducing the adhesion of the cable material inside the lower tank 16. Finally, the third motor 14 drives the spiral roller 20 to... The material is rotated, and because the left end of the feeding machine body 13 is connected to the outer wall of the lower tank 16, the cable material inside the lower tank 16 falls into the feeding machine body 13. The rotating spiral roller 20 then spirally conveys the cable material to the right, allowing it to be discharged through the discharge port 15. Finally, the first motor 7 drives the lead screw 8 to rotate, causing the nut seat 10 to slide on the outer wall of the lead screw 8 and the guide rod 9. This allows the nut seat 10 to move the material box 12 back and forth via the placement seat 11. Since there are two material boxes 12, the two material boxes 12 are moved back and forth sequentially to the area below the discharge port 15, allowing for the sequential collection of the discharged cable material at two different workstations, thus completing the use of the material tank.

Claims

1. A material container for cable material processing, characterized in that: The system includes a base (1), an upper tank (3) at the center of the top of the base (1), a lower tank (16) extending from the bottom of the upper tank (3) into the base (1), a feeding machine (13) on one side of the outer wall of the lower tank (16), one end of the feeding machine (13) communicating with the outer wall of the lower tank (16), and the other end extending to the outside of the base (1). A bearing plate (5) is provided on the outer wall of the base (1) below the feeding machine (13), a transmission frame (6) is provided on one side of the top of the bearing plate (5), a lead screw (8) is rotatably installed inside the transmission frame (6), and guide rods (9) are fixed on the inner walls of the transmission frame (6) on both sides of the lead screw (8). Two nut seats (10) are threaded on the outer wall of the lead screw (8). The nut seats (10) are movably connected to the guide rod (9). Each nut seat (10) has a placement seat (11) at its top. A material box (12) is placed at the top of the placement seat (11). A first motor (7) is installed on the surface of the transmission frame (6). One end of the first motor (7) extends to the inner side of the transmission frame (6) and is connected to one end of the lead screw (8). Universal wheels (2) are installed at the corners of the bottom of the base (1). A control panel (21) is installed on the outer wall of the base (1) on one side of the unloading machine body (13). The output end of the single-chip microcomputer inside the control panel (21) is electrically connected to the input end of the first motor (7).

2. The material container for cable material processing according to claim 1, characterized in that: The bottom of the feeding machine body (13) is provided with a feeding port (15), and the top of the feeding port (15) is connected to the bottom of the feeding machine body (13).

3. The material container for cable material processing according to claim 1, characterized in that: The feeding machine body (13) is equipped with a rotating spiral roller (20) inside. A third motor (14) is installed on the outer wall of the feeding machine body (13) away from the lower tank (16). The input end of the third motor (14) is electrically connected to the output end of the microcontroller inside the control panel (21). One end of the third motor (14) extends into the interior of the feeding machine body (13) and is connected to one end of the spiral roller (20).

4. A material container for cable material processing according to claim 1, characterized in that: The upper tank (3) has a can opening (4) at the center of its top, and the bottom of the can opening (4) extends into the interior of the upper tank (3).

5. A material container for cable material processing according to claim 1, characterized in that: A linkage shaft (18) is rotatably installed at the center of the lower tank (16), and a mixing blade (19) is installed on the outer wall of the linkage shaft (18).

6. A material container for cable material processing according to claim 5, characterized in that: The bottom of the lower tank (16) is equipped with a second motor (17). The input end of the second motor (17) is electrically connected to the output end of the microcontroller inside the control panel (21). The top end of the second motor (17) extends into the interior of the lower tank (16) and is connected to the bottom end of the linkage shaft (18).