A zinc ingot storage device
By introducing a combination structure of lifting guide rod and driving hydraulic cylinder into the zinc ingot storage device, the problem of difficulty in adjusting the discharge height of zinc ingots is solved, realizing stable storage and transfer of zinc ingots, and enhancing safety and cleanliness.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- YANGZHOU YINXING ZINC PRODUCTS CO LTD
- Filing Date
- 2025-04-28
- Publication Date
- 2026-06-05
Smart Images

Figure CN224323087U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to an auxiliary device for storing zinc ingots, specifically a zinc ingot storage device. Background Technology
[0002] In applications where zinc ingots are used, zinc's excellent resistance to atmospheric corrosion makes it widely used as a surface coating for steel and steel structural components. This reduces the contact between the metal surface and water, air, and chemicals, thereby slowing down the corrosion rate. This application is very common in the automotive, construction, shipbuilding, and light industry sectors. Alloying zinc with other metals can increase the strength, hardness, and corrosion resistance of materials. Brass, an alloy of zinc and copper, is widely used in the machinery industry. In particular, the emergence of zinc-copper-titanium alloys has brought their overall mechanical properties close to or at the level of aluminum alloys and brass, with significantly improved creep resistance. Therefore, zinc-copper-titanium alloys are widely used in small hardware production and also possess good machinability and, under certain conditions, superior superplasticity. Furthermore, zinc is an excellent anti-electromagnetic field material; in applications involving radio frequency interference, zinc plates are a very effective shielding material.
[0003] In the prior art: 202021778454.9, an automatic zinc-adding device for improving the surface quality of galvanized sheets includes a zinc ingot storage area, guide rails, a control cabinet, an electric hoist, zinc ingots, a level gauge, and a zinc liquid tank. The level gauge is installed on the upper part of the zinc liquid tank. Two guide rails are installed on one side of the zinc liquid tank. A zinc ingot storage area is installed below the two guide rails. A control cabinet is installed between the two guide rails. An electric hoist is installed on the upper part of the two guide rails. Zinc ingots are installed below the electric hoist.
[0004] Although existing technologies can achieve automatic zinc addition from both sides without the need for manual control of the addition amount, greatly reducing labor intensity, they cannot adjust the storage height of zinc ingots. When zinc ingots are discharged, the drop height difference is relatively large. Utility Model Content
[0005] To overcome the shortcomings of existing technologies where the dropping height is difficult to adjust, this utility model provides a zinc ingot storage device.
[0006] This utility model is achieved using the following technical solution: a zinc ingot storage device, comprising a storage platform, a bottom support rod on the storage platform, a storage plate below the bottom support rod, fine holes on the storage plate, a bottom bracket on the bottom support rod, an assembly shaft on the bottom bracket, movable rollers mounted on the assembly shaft, a lifting device (a lifting guide rod) on the storage platform, a driving component (a hydraulic cylinder) on the lifting guide rod, the lifting guide rod and the storage plate being assembled and connected to each other, and a lifting component at the bottom of the hydraulic cylinder.
[0007] The lifting component is a lifting bracket, which is provided with a placement platform. The placement platform is provided with a sinking hole, and a driving hydraulic cylinder is installed in the sinking hole.
[0008] The storage platform is provided with side bosses on both sides, and the side bosses are provided with assembly holes, and the assembly holes are provided with side baffles.
[0009] The side baffle is provided with a through hole, and a long screw is provided in the through hole. The long screw passes through the side baffle and enters the assembly round hole on the side boss.
[0010] The long screw has an upper platform at its top and an adapter hole at its bottom, into which the long screw is inserted.
[0011] Compared to existing technologies, this invention utilizes a storage device when storing or transferring zinc ingots. The device includes a storage plate with a lifting guide rod at its bottom. This guide rod provides a stable track for lifting the zinc ingots, ensuring smooth movement and preventing tilting or swaying. The device also allows for height adjustment during storage. When the incoming zinc ingots are high, a hydraulic cylinder can be used to adjust the height of the storage plate. This hydraulic cylinder, as a power source, provides strong driving force, easily lifting heavier zinc ingots and meeting the storage and retrieval needs of zinc ingots of different specifications and weights.
[0012] The combination of the lifting bracket and the placement platform allows for the proper assembly of the drive hydraulic cylinder, making the assembly more stable and providing a stable foundation for the subsequent lifting of zinc ingots. This ensures the safety of the zinc ingots during storage. The storage plate has fine holes to drain any liquids that may be present, such as rainwater or cleaning fluid, preventing the zinc ingots from being soaked and corroded. The fine holes also reduce dust accumulation to some extent, keeping the storage environment clean, and also facilitate observation of the bottom of the zinc ingots. Attached Figure Description
[0013] Figure 1 This is a schematic diagram of the structure of this utility model;
[0014] Figure 2 This is a schematic diagram of the structure of this utility model;
[0015] Figure 3 This is a schematic diagram of the structure of this utility model;
[0016] In the diagram: 1 is the bottom support rod, 2 is the storage plate, 3 is the fine hole, 4 is the bottom bracket, 5 is the moving roller, 6 is the lifting guide rod, 7 is the driving hydraulic cylinder, 8 is the lifting bracket, 9 is the placement platform, 10 is the side boss, 11 is the side baffle, 12 is the long screw, and 13 is the upper platform. Detailed Implementation
[0017] The present invention will be further described below with reference to the accompanying drawings and specific embodiments. It should be noted that, without conflict, the various embodiments or technical features described below can be arbitrarily combined to form new embodiments.
[0018] A zinc ingot storage device includes a storage platform with a bottom support rod 1 and a storage plate 2 on the bottom support rod 1. The storage plate 2 has fine holes 3. A bottom bracket 4 is located below the bottom support rod 1, and an assembly shaft is mounted on the bottom bracket 4. Moving rollers 5 are mounted on the assembly shaft. A lifting device, which is a lifting guide rod 6, is provided on the storage platform. The lifting guide rod 6 has a driving component, which is a driving hydraulic cylinder 7. The lifting guide rod 6 and the storage plate 2 are assembled and connected to each other. A lifting component is provided at the bottom of the driving hydraulic cylinder 7.
[0019] The zinc ingots are stored and transferred using a storage device. The storage device is equipped with a storage plate 2 and a lifting guide rod 6 at the bottom of the storage platform 8. The lifting guide rod 6 provides a stable guide track for the lifting of the zinc ingots, ensuring that the zinc ingots remain stable during the lifting process and avoiding tilting or shaking. The height of the zinc ingots can also be adjusted when they are stored. When the zinc ingots are at a high height, the height of the storage plate 2 can be adjusted with the help of a driving hydraulic cylinder 7. The driving hydraulic cylinder 7 serves as a power source and has strong driving force, which can easily lift heavier zinc ingots, meeting the storage and retrieval needs of zinc ingots of different specifications and weights.
[0020] The lifting component is a lifting bracket 8, which is equipped with a placement platform 9. The placement platform 9 has a recessed hole, and a driving hydraulic cylinder 7 is installed in the recessed hole. With the cooperation of the lifting bracket 8 and the placement plate 2, the driving hydraulic cylinder 7 can be assembled well, making the assembly of the driving hydraulic cylinder 7 more stable. This provides a stable placement foundation for the subsequent lifting of zinc ingots, ensuring the safety of zinc ingots during storage. The storage plate 2 has fine holes 3, which can drain any liquids that may be present, such as rainwater and cleaning fluid, to prevent the zinc ingots from being soaked and corroded. The fine holes can also reduce dust accumulation to a certain extent, keeping the storage environment clean, and also making it easier to observe the bottom of the zinc ingots.
[0021] The side boss 10, the mounting hole, and the side baffle 11 work together to form an effective protective structure. The long screw 12 passes through the side baffle and enters the mounting hole, fixing the side baffle 11 to the side boss 10. This provides lateral protection for the zinc ingots stored on the storage plate 2. Side bosses 10 are provided on both sides of the storage platform, and mounting holes are provided on the side bosses 10. Side baffles 11 are installed within the mounting holes. When the zinc ingots are placed on the storage plate 2, the side baffles 11... 1. This design prevents zinc ingots from slipping off both sides, improving the safety and stability of the device. It effectively protects the zinc ingots, especially when they encounter slight vibrations or collisions during storage. A through hole is provided on the side baffle 11, and a long screw 12 is installed in the through hole. The long screw 12 passes through the side baffle 11 and enters the mounting round hole on the side boss 10. An upper platform 13 is provided on the top of the long screw 12, and an adapter hole is provided at the bottom of the upper platform 13. The long screw 12 is inserted into the adapter hole.
[0022] The above embodiments are merely preferred embodiments of this utility model and should not be construed as limiting the scope of protection of this utility model. Any non-substantial changes and substitutions made by those skilled in the art based on this utility model shall fall within the scope of protection claimed by this utility model.
Claims
1. A zinc ingot storage device, comprising a storage platform, a bottom support rod on the storage platform, a storage plate on the bottom support rod, the storage plate having fine holes, a bottom bracket below the bottom support rod, an assembly shaft on the bottom bracket, and movable rollers mounted on the assembly shaft; and a lifting device on the storage platform, characterized in that: The lifting device is a lifting guide rod, and a driving component is provided on the lifting guide rod. The driving component is a driving hydraulic cylinder. The lifting guide rod and the storage plate are assembled and connected to each other. A lifting component is provided at the bottom of the driving hydraulic cylinder.
2. The zinc ingot storage device according to claim 1, characterized in that: The lifting component is a lifting bracket, which is provided with a placement platform. The placement platform is provided with a sinking hole, and a driving hydraulic cylinder is installed in the sinking hole.
3. The zinc ingot storage device according to claim 1, characterized in that: The storage platform is provided with side bosses on both sides, and the side bosses are provided with assembly holes, and the assembly holes are provided with side baffles.
4. A zinc ingot storage device according to claim 3, characterized in that: The side baffle is provided with a through hole, and a long screw is provided in the through hole. The long screw passes through the side baffle and enters the assembly round hole on the side boss.
5. A zinc ingot storage device according to claim 4, characterized in that: The long screw has an upper platform at its top and an adapter hole at its bottom, into which the long screw is inserted.