Automatic anti-rust processing equipment for hardware

By designing automated rust prevention processing equipment, the problems of low efficiency and safety hazards in rust prevention treatment of hardware parts have been solved. The automated anti-splash components of the rust prevention treatment equipment for hardware parts have been realized, and automated rust prevention treatment of liquids has been achieved, improving the safety and economy of the equipment.

CN224371964UActive Publication Date: 2026-06-19SHENZHEN HONGXINRUI TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN HONGXINRUI TECH CO LTD
Filing Date
2025-07-15
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Traditional rust prevention treatment for hardware components suffers from low efficiency, unstable quality, high labor costs, and safety hazards and waste of chemicals caused by liquid splashing during the spin-drying process.

Method used

An automated rust prevention processing equipment was designed, comprising a splash-proof component, a drive component, a rust prevention component, and a spin-drying component. The protective shell prevents liquid splashing, and the electric push rod and motor enable automatic immersion and spin-drying of hardware parts. The limit groove and reset component ensure safe operation of the equipment.

Benefits of technology

It improves the efficiency and consistency of rust prevention treatment, avoids safety hazards and waste of reagents caused by liquid splashing, and reduces the difficulty and cost of wastewater treatment.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses an automated rust prevention processing equipment for hardware parts, relating to the field of hardware processing technology. It includes a base, support legs at the bottom of the base, and a splash-proof component. The splash-proof component includes a protective shell on the top of the base, a first groove on the top of the base near the protective shell, a sliding block slidably connected to the first groove, the sliding block connected to the protective shell, a disc connected to the bottom of the sliding block, and a drive component. The drive component includes a rotating shaft rotatably connected to the base, a drive plate rotatably connected to the rotating shaft, a pedal connected to the top of the drive plate, a connecting rod connected to the bottom of the drive plate, a limit block connected to the connecting rod, and a push block connected to the limit block. By setting up the splash-proof component, it can block high-speed ejected liquid from contacting the workpiece, preventing splashes from injuring operators or damaging surrounding equipment, while also preventing corrosive liquids from eroding circuits and reducing the risk of electrical failures.
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Description

Technical Field

[0001] This utility model relates to the field of hardware processing technology, specifically to an automated rust prevention processing equipment for hardware parts. Background Technology

[0002] Hardware parts are widely used in industrial production, but they are susceptible to rust due to environmental factors. Traditional manual rust prevention treatment is inefficient, of unstable quality, and has high labor costs. With the development of automation in manufacturing, the market has placed higher demands on the efficiency and consistency of rust prevention treatment for hardware parts.

[0003] After the hardware parts are soaked, they need to be spun dry. However, the centrifugal force generated by the high-speed rotation during spun drying may cause residual liquid or even loosely fixed workpieces to splash out. The splashed liquid can easily make the ground slippery, causing people to slip and fall. The splashed workpieces may also directly hit the operators, causing serious mechanical injuries. Moreover, the splashed liquid and chemicals are difficult to recover, which not only wastes the chemicals but also increases the difficulty and cost of wastewater treatment. Therefore, we have proposed an automated rust prevention treatment equipment for hardware parts. Utility Model Content

[0004] The purpose of this utility model is to provide an automated rust prevention processing equipment for hardware parts to solve the problems mentioned in the background art.

[0005] To achieve the above objectives, this utility model provides the following technical solution: an automated rust prevention processing equipment for hardware parts, comprising a base, support legs disposed at the bottom of the base, and further comprising:

[0006] A splash-proof assembly includes a protective shell disposed on the top of a base. A first sliding groove is provided on the top of the base near the protective shell. A sliding block is slidably connected to the first sliding groove. The sliding block is connected to the protective shell. A disc is connected to the bottom of the sliding block.

[0007] A drive assembly includes a rotating shaft rotatably connected to a base, a drive plate rotatably connected to the rotating shaft, a pedal connected to the top of the drive plate, a connecting rod connected to the bottom of the drive plate, a limit block connected to the connecting rod, and a push block connected to the limit block.

[0008] Furthermore, two protective shells are provided, which are respectively located on the top sides of the base, and the top of the protective shells has an opening.

[0009] The above technical solution is adopted: by setting up a passage, it is ensured that when the protective shell is closed, the passage can only accommodate the connecting shaft, while the hanger is entirely located inside the protective shell.

[0010] Furthermore, a reset assembly is provided on the top of the base, the reset assembly including a limiting plate, and a spring connecting the limiting plate and the sliding block.

[0011] The above technical solution is adopted: by setting a reset component, when the push block separates from the disk, the protective shell automatically springs back to its original position and closes by the elastic force of the spring contraction.

[0012] Furthermore, the base is provided with a rust-proof component on top, the rust-proof component includes a soaking tank, a bracket is connected to the side of the base near the soaking tank, an electric push rod is provided on the top of the bracket, a connecting rope is connected to the output end of the electric push rod, a support plate is provided on the top of the bracket, a fixed pulley is provided on the support plate, and the connecting rope is sleeved on the fixed pulley.

[0013] The above technical solution involves setting up rust-proof components to drive the hanging fixture to rise and fall, thereby soaking the hardware parts.

[0014] Furthermore, the bracket is equipped with a spin-drying assembly, which includes a housing, a connecting shaft at the bottom of the housing, a hanger connected to the bottom of the connecting shaft, a connecting plate connected to the top of the housing, and the end of the connecting rope away from the electric push rod connected to the connecting plate. The connecting shaft is rotatably connected to the bracket.

[0015] The above technical solution is adopted: by setting up a spin-drying component, the residual liquid on the surface of the soaked hardware is spin-dried.

[0016] Furthermore, a motor is installed inside the housing, and the connecting shaft is connected to the output end of the motor.

[0017] The above technical solution involves setting up a motor as the power source for the rotation of the connecting shaft, thereby driving the hardware parts to rotate.

[0018] Furthermore, a limiting groove is provided on the bottom of the base near the limiting block, and the limiting block is slidably connected to the limiting groove.

[0019] The above technical solution is adopted: by setting a limiting groove, the limiting block will slide synchronously in the limiting groove during the movement of the limiting block, thereby limiting the movement trajectory of the limiting block.

[0020] Compared with the prior art, the advantages and positive effects of this utility model are as follows:

[0021] In this invention, by setting up anti-splash components, the liquid ejected at high speed can be blocked from contacting the workpiece, preventing splashes from injuring operators or damaging surrounding equipment. At the same time, it prevents corrosive liquids from eroding circuits, reducing the risk of electrical failures. It solves the problem that when hardware parts rotate at high speed, liquid splashes, causing the ground to become slippery and leading to slips and falls. Furthermore, the ejected liquid and chemicals are difficult to recover, resulting in not only waste of chemicals but also increased difficulty and cost of wastewater treatment. Attached Figure Description

[0022] Figure 1 This is a front view of an automated rust prevention processing equipment for hardware parts.

[0023] Figure 2 This is a side view of an automated rust prevention processing equipment for hardware parts.

[0024] Figure 3 This is a bottom structural diagram of an automated rust prevention processing equipment for hardware parts.

[0025] Figure 4 This is an exploded view of an automated rust prevention processing equipment for hardware parts.

[0026] Figure 5 for Figure 3 Enlarged view of point A in the middle.

[0027] Numbering on the map:

[0028] 1. Base; 2. Support legs;

[0029] 3. Rust-proof components; 31. Immersion tank; 32. Bracket; 33. Electric push rod; 34. Connecting rope; 35. Support plate; 36. Fixed pulley;

[0030] 4. Spin-drying assembly; 41. Housing; 42. Connecting shaft; 43. Hanger; 44. Connecting plate;

[0031] 5. Splash-proof assembly; 51. Protective shell; 52. First slide groove; 53. Through port; 54. Sliding block; 55. Disc;

[0032] 6. Drive assembly; 61. Pedal; 62. Rotating shaft; 63. Drive plate; 64. Connecting rod; 65. Limit block; 66. Push block;

[0033] 7. Reset assembly; 71. Limiting plate; 72. Spring;

[0034] 8. Limiting groove. Detailed Implementation

[0035] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0036] like Figures 1-3 As shown, this utility model provides a technical solution: an automated rust prevention processing equipment for hardware parts, including a base 1, support legs 2 provided at the bottom of the base 1, and further comprising:

[0037] The splash-proof component 5 includes a protective shell 51 disposed on the top of the base 1. A first sliding groove 52 is provided on the side of the top of the base 1 near the protective shell 51. A sliding block 54 is slidably connected to the first sliding groove 52. The sliding block 54 is connected to the protective shell 51. A disc 55 is connected to the bottom of the sliding block 54. Two protective shells 51 are provided, which are respectively disposed on the two sides of the top of the base 1. A through-hole 53 is provided on the top of the protective shell 51.

[0038] Drive assembly 6 includes a rotating shaft 62 rotatably connected to the base 1, a drive plate 63 rotatably connected to the rotating shaft 62, a pedal 61 connected to the top of the drive plate 63, a connecting rod 64 connected to the bottom of the drive plate 63, a limit block 65 connected to the connecting rod 64, and a push block 66 connected to the limit block 65.

[0039] Specifically, before the spin-drying process, the pedal 61 is pressed, which drives the drive plate 63 to rotate via the shaft 62. The drive plate 63 drives the connecting rod 64 to move, which in turn drives the limiting block 65 to move. The limiting block 65 then drives the pushing block 66 to move. During the movement, the pushing block 66 will squeeze the discs 55 on both sides. After being squeezed, the discs 55 will drive the sliding block 54 to slide in the first groove 52, thereby causing the protective shell 51 to slide. A gap will appear between the two protective shells 51, allowing the hardware to be inserted. Then, the two protective shells 51 are joined together for the spin-drying process.

[0040] Furthermore, such as Figure 4As shown: A rust-proof component 3 is installed on the top of the base 1. The rust-proof component 3 includes a soaking tank 31. A bracket 32 ​​is connected to the top of the base 1 near the soaking tank 31. An electric push rod 33 is installed on the top of the bracket 32. A connecting rope 34 is connected to the output end of the electric push rod 33. A support plate 35 is installed on the top of the bracket 32. A fixed pulley 36 is installed on the support plate 35. The connecting rope 34 is sleeved on the fixed pulley 36. A spin-drying component 4 is installed on the bracket 32. The spin-drying component 4 includes a housing 41. A connecting shaft 42 is installed at the bottom of the housing 41. A hanger 43 is connected to the bottom of the connecting shaft 42. The top of the housing 41 is connected to... A connecting plate 44 is attached, and the end of the connecting rope 34 away from the electric push rod 33 is connected to the connecting plate 44. The connecting shaft 42 is rotatably connected to the bracket 32. A motor is installed inside the housing 41, and the connecting shaft 42 is connected to the output end of the motor. The hardware is hung on the hanger 43, and then the electric push rod 33 is turned on, which drives the connecting rope 34 to slide on the fixed pulley 36. The connecting rope 34 drives the hanger 43 and the hardware to descend into the soaking tank 31 for rust prevention. Then it is hoisted back, and the motor is turned on to drive the connecting shaft 42 to rotate. The connecting shaft 42 drives the hanger 43 and the hardware to perform spin-drying.

[0041] The above solution also includes the requirement that, after the push block 66 separates from the disk 55, the protective shell 51 should automatically spring back to its original position, such as... Figure 5 As shown: A reset component 7 is provided on the top of the base 1. The reset component 7 includes a limiting plate 71. A spring 72 is connected between the limiting plate 71 and the sliding block 54. When the pushing block 66 separates from the disc 55, the sliding block 54 will drive the protective shell 51 to automatically spring back to its original position through the elastic force of the spring 72 after it contracts, thus sealing the hardware.

[0042] The above solution also requires that the limit block 65 be limited during movement to prevent deviation of the movement trajectory, such as... Figure 3 As shown: A limiting groove 8 is provided on the bottom of the base 1 near the limiting block 65. The limiting block 65 is slidably connected to the limiting groove 8. When the limiting block 65 moves, it will slide synchronously in the limiting groove 8, thereby limiting the movement trajectory of the limiting block 65.

[0043] The working principle provided by this utility model is as follows: Figures 1-5As shown: First, step on pedal 61. Pedal 61 drives drive plate 63 to rotate via shaft 62. Drive plate 63 drives connecting rod 64 to move. Connecting rod 64 drives limit block 65 to move. Limit block 65 drives push block 66 to move. During the movement, push block 66 will squeeze the discs 55 on both sides. After being squeezed, the discs 55 will drive sliding block 54 to slide in the first groove 52, thereby driving protective shell 51 to slide. A gap will appear between the two protective shells 51. Then, the hardware is hung on the hanging... On fixture 43, the electric push rod 33 is then turned on, causing the connecting rope 34 to slide on the fixed pulley 36. The connecting rope 34 causes the fixture 43 and hardware to descend into the soaking tank 31 for rust prevention. Then, it is hoisted back and the pedal 61 is hooked back. When the push block 66 separates from the disc 55, the sliding block 54 will cause the protective shell 51 to automatically spring back to its original position through the elastic force of the spring 72, sealing the hardware. Then, the motor is turned on to drive the connecting shaft 42 to rotate, and the connecting shaft 42 drives the fixture 43 and hardware to perform spin-drying.

[0044] The above description is merely a preferred embodiment of the present utility model and is not intended to limit the present utility model in any way. Although the present utility model has been disclosed above with reference to preferred embodiments, it is not intended to limit the present utility model. Any person skilled in the art can make some modifications or alterations to the above-described technical content to create equivalent embodiments without departing from the scope of the present utility model. The implementation schemes in the above embodiments can also be further combined or replaced. Any simple modifications, equivalent changes and alterations made to the above embodiments based on the technical essence of the present utility model without departing from the scope of the present utility model shall still fall within the scope of the present utility model.

Claims

1. An automatic rust-proof processing equipment for hardware, comprising a base (1), a supporting leg (2) arranged at the bottom of the base (1), characterized in that, Also includes: The splash-proof assembly (5) includes a protective shell (51) disposed on the top of the base (1). A first sliding groove (52) is provided on the side of the top of the base (1) near the protective shell (51). A sliding block (54) is slidably connected on the first sliding groove (52). The sliding block (54) is connected to the protective shell (51). A disc (55) is connected to the bottom of the sliding block (54). The drive assembly (6) includes a rotating shaft (62) rotatably connected to the base (1), a drive plate (63) rotatably connected to the rotating shaft (62), a pedal (61) connected to the top of the drive plate (63), a connecting rod (64) connected to the bottom of the drive plate (63), a limit block (65) connected to the connecting rod (64), and a push block (66) connected to the limit block (65).

2. The automatic rust-proof processing equipment for hardware according to claim 1, characterized in that: Two protective shells (51) are provided, and the two protective shells (51) are respectively provided on the top two sides of the base (1). The top of the protective shell (51) is provided with an opening (53).

3. The automatic rust-proof processing equipment for hardware according to claim 1, characterized in that: The base (1) is provided with a reset assembly (7) on top. The reset assembly (7) includes a limiting plate (71) and a spring (72) is connected between the limiting plate (71) and the sliding block (54).

4. The automatic rust treatment processing equipment for hardware according to claim 1, characterized in that: The base (1) is provided with a rust-proof component (3) on the top. The rust-proof component (3) includes a soaking tank (31). A bracket (32) is connected to the side of the base (1) near the soaking tank (31). An electric push rod (33) is provided on the top of the bracket (32). A connecting rope (34) is connected to the output end of the electric push rod (33). A support plate (35) is provided on the top of the bracket (32). A fixed pulley (36) is provided on the support plate (35). The connecting rope (34) is sleeved on the fixed pulley (36).

5. The automatic rust treatment processing equipment for hardware according to claim 4, characterized in that: The bracket (32) is provided with a spin-drying assembly (4), which includes a housing (41). A connecting shaft (42) is provided at the bottom of the housing (41). A hanger (43) is connected to the bottom of the connecting shaft (42). A connecting plate (44) is connected to the top of the housing (41). The end of the connecting rope (34) away from the electric push rod (33) is connected to the connecting plate (44). The connecting shaft (42) is rotatably connected to the bracket (32).

6. The automatic rust treatment processing equipment for hardware according to claim 5, characterized in that: A motor is installed inside the housing (41), and the connecting shaft (42) is connected to the output end of the motor.

7. The automatic rust treatment processing equipment for hardware according to claim 1, characterized in that: A limiting groove (8) is provided on the bottom of the base (1) near the limiting block (65), and the limiting block (65) is slidably connected to the limiting groove (8).