The present invention relates to a metal plating apparatus for plating metal with zinc, especially to a metal plating apparatus for plating metal with zinc that improves working efficiency.
Most of small size metal parts, such as screws, are made of iron, so the metal parts are prone to rust. In order to prevent rusting and improve antioxidant capacity, the metal parts may undergo a surface plating treatment with zinc for forming a protection layer on surfaces of the metal parts. The surface plating treatment with zinc is performed with a horizontal rotating device mounted with a stirring device, and the stirring device cooperates with a feeding conveyor and an unloading conveyor disposed on an outer periphery of the stirring device. The metal parts enter a barrel of the stirring device through the feeding conveyor. The stirring device is capable of adjusting an elevation angle of the barrel and rolling the barrel so that the metal parts are plated with zinc. During the plating, different chemicals are added. The horizontal rotating device is capable of turning the stirring device and adjusting an orientation of the barrel to let other auxiliary devices add the chemicals into the barrel. After finishing plating metal parts with zinc in the barrel, the horizontal rotating device turns the stirring device to orient to the unloading conveyor, and the stirring device adjusts the elevation angle of the barrel so that the metal parts in the barrel can be poured to the unloading conveyor.
However, each stirring device needs to cooperate with one horizontal rotating device. Besides, each one of a feeding conveyor, an unloading conveyor and an auxiliary device for adding chemicals cooperates with a respective stirring device individually. To improve production capacity by increasing the number of the stirring device, numbers of the horizontal rotating device, the auxiliary device, the feeding conveyor and the unloading conveyor are also increased. Thus, the whole apparatus occupy huge space and needs more manpower to operate, which decreases the working efficiency.
To overcome the shortcomings, the present invention provides a metal plating apparatus for plating metal with zinc to mitigate or obviate the aforementioned problems.
The main objective of the present invention is to provide a metal plating apparatus for plating metal with zinc which overcomes the shortcomings of the conventional plating apparatus that occupies huge space and needs a lot of people to operate for improving productivity but decrease working efficiency, because one stirring device needs to cooperate with one horizontal rotating device, and each one of a feeding conveyor, an unloading conveyor and an auxiliary device cooperates with one respective stirring device individually.
The metal plating apparatus for plating metal with zinc has
a rotating device including
Then, an outer periphery of the metal plating apparatus is disposed with a feeding device, an unloading device and a pouring auxiliary device. The rotating seat of the rotating device turns the stirring devices so that the stirring devices can shift position according to different working processes through the rotating device. Thus, the stirring devices on the rotating seat are capable of cooperating with the feeding device, the unloading device and the pouring auxiliary device, and plating metal parts with zinc automatically. So the metal plating apparatus improves both productivity and working efficiency, and decreases occupying space and the number of operating personnel.
Other objectives, advantages and novel features of the invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings.
With reference to
The rotating device 10 includes a driving assembly 11 and a rotating assembly 12. The driving assembly 11 comprises a driving gear 13. The rotating assembly 12 is connected with and controlled by the driving assembly 11. The rotating assembly 12 includes a sustaining pillar 14, and the sustaining pillar 14 is mounted with a rotating seat 15 thereon. The rotating seat 15 is engaged with the driving gear 13. The rotating seat 15 is divided into a plurality of radial working areas 18, and each one of the working areas 18 is disposed with a sensor (not illustrated in the drawings) for detecting a location of the stirring device 20 that is mounted on the rotating seat 15. The driving assembly 11 comprises a motor 16, the motor 16 is connected with a reducer 17, and the reducer 17 is connected with the driving gear 13. The rotating seat 15 includes a tooth portion 151 at an outer surface of the rotating seat 15, and the tooth portion 151 engages with the driving gear 13. The rotating device 10 can adopt 360-degree-rotation power supply with an electric rail. The stirring devices 20 are mounted radially on the rotating seat 15 of the rotating device 10, and the stirring devices 20 are spaced apart from each other. In accordance with
The metal plating apparatus includes a plurality of erect pillars 30 and a viewing platform 31. The erect pillars 30 are mounted around and surround the rotating assembly 12, and the erect pillars 30 are spaced apart from each other. The viewing platform 31 is mounted on the erect pillars 30 and spaced apart from an outer periphery of the rotating seat 15. At least one flight of stairs 32 is disposed on the viewing platform 31.
According to
With reference to
The first working area 18a of the metal plating apparatus performs an unloading task with a cooperation of the unloading device 40; the second working area 18b performs a bead pouring task with a cooperation of a water-bead tank; the third working area 18c performs a screw feeding task with a cooperation of the feeding device 50; the fourth working area 18d performs a pouring task of pouring initiator, hydrochloric acid, copper powder and stannous chloride with a cooperation of the pouring auxiliary device 60; the fifth working area 18e, the sixth working area 18f and the seventh working area 18g perform a zinc powder titration task with a cooperation of a zinc powder titration pump; and the eighth working area 18h performs a washing task with a cooperation of a washing device. The beads are used as a medium, and diameters of the beads that are poured into the barrel 25 are different from each other. The hydrochloric acid is used for cleaning surfaces of the screws and promoting plating effect.
In accordance with
After the stirring devices 20 accomplish the tasks at the working areas 18, the driving assembly 11 can work and drive the rotating seat 15 of the rotating assembly 12 so that the stirring devices 20 are shifted to the next working areas 18. In other words, the first stirring device 20a is shifted to the second working area 18b and performs the bead pouring task, the second stirring device 20b is shifted to the fourth working area 18d and performs the pouring tasks of pouring initiator, hydrochloric acid, copper powder and stannous chloride, the third stirring device 20c is shifted to the sixth working area 18f and performs the zinc powder titration task, and the fourth stirring device 20d is shifted to the eighth working area 18h and performs the washing task. After the sensor detects the stirring devices 20 on the rotating seat 15 are at a right location, the driving assembly 11 stops turning the rotating seat 15. When the tasks are finished, the driving assembly 11 turns the rotating seat 15 again. Time duration of each one of the stirring devices 20 staying at the working area 18 is approximately twelve minutes.
The elevation angle adjusting element 23 of each one of the stirring devices 20 is used for adjusting an elevation angle of the barrel 25 to suit with different tasks. The barrel rotating element 24 can roll the barrel 25 to mix the beads, the screws, the initiator and the zinc powder which are poured into the barrel 25. Besides, the operators can walk onto the viewing platform 31 to check the operation in the barrel assembly 22.
Consequently, the metal plating apparatus for plating metal with zinc comprises the stirring devices 20 mounted on the rotating seat 15 and the driving assembly 11 to rotate the rotating seat 15, shifting the locations of the stirring device 20 to cooperate with the peripheral supporting apparatus. Thus, the present metal plating apparatus does not need to dispose a horizontal rotating device under each one of the stirring devices 20, but allows each one of the stirring devices 20 to cooperate with the peripheral supporting apparatus alternately. Therefore, the present metal plating apparatus improves both productivity and working efficiency by decreasing occupied space and the number of operating personnel, and providing an automatic process.
Even though numerous characteristics and advantages of the present invention have been set forth in the foregoing description, together with details of the structure and features of the invention, the disclosure is illustrative only. Changes may be made in the details, especially in matters of shape, size, and arrangement of parts within the principles of the invention to the full extent indicated by the broad general meaning of the terms in which the appended claims are expressed.
Number | Name | Date | Kind |
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2386319 | Johnson | Oct 1945 | A |
3038851 | Jackson | Jun 1962 | A |
3442691 | Pearson | May 1969 | A |
4616593 | Kawamura | Oct 1986 | A |
6837933 | Reinhardt | Jan 2005 | B2 |
Number | Date | Country |
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103447199 | Dec 2013 | CN |
103464042 | Dec 2013 | CN |
203402622 | Jan 2014 | CN |
203703015 | Jul 2014 | CN |
Entry |
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Author Unknown, “Mechanical Galvanizing: New Way to Bulk Coat Parts,” Machine Design, vol. 52, No. 20, Sep. 1980, p. 12. |
Extended European Search Report issued in European Application No. 16182758.9 dated Jan. 26, 2017. |