CN114990680A

CN114990680A - Drum-type galvanizing equipment and working method thereof

Info

Publication number: CN114990680A
Application number: CN202210656469.5A
Authority: CN
Inventors: 王炯; 廖其军; 王洪松
Original assignee: Jiashan Jinxiang Automation Machinery Co ltd
Current assignee: Jiashan Jinxiang Automation Machinery Co ltd
Priority date: 2022-06-10
Filing date: 2022-06-10
Publication date: 2022-09-02
Anticipated expiration: 2042-06-10
Also published as: CN114990680B

Abstract

The invention discloses a drum-type galvanizing device and a working method thereof, which relate to the relevant technical field of galvanizing technology and comprise a working support, wherein a barrel-plating mechanism is arranged on the inner side of the working support, a transfer mechanism is arranged on the side wall of the working support facing the inner side, a barrel-plating drum mechanism is arranged at one end of the transfer mechanism far away from the inner side of the working support, a movement control mechanism is arranged on the side wall of the working support facing the outer side, the working support comprises a movable bearing plate, a lifting driving groove is arranged on the outer side of the movable bearing plate, an observation port is arranged at the bottom of one end of the movable bearing plate facing the front end, a supporting baffle is connected to one end of the observation port far away from the movable bearing plate, and a barrel-plating pool is arranged at the bottom end of the movable bearing plate; meanwhile, when the barrel plating device is used, the barrel plating operation process is unified, only the operations of feeding, barrel plating and taking out are carried out in the same process, and finally parts are taken out in a unified mode, so that the treatment efficiency is improved, and the yield is improved.

Description

Drum-type galvanizing equipment and working method thereof

Technical Field

The invention relates to the related technical field of a galvanizing process, in particular to a drum-type galvanizing device and a working method thereof.

Background

The galvanization is a surface treatment technology for plating a layer of zinc on the surface of metal, alloy or other materials to play the roles of beauty, rust prevention and the like, in a plating tank containing galvanizing liquid, a to-be-plated piece subjected to cleaning and special pretreatment is used as a cathode, a plated metal is used for manufacturing an anode, and the two electrodes are respectively connected with the anode and the cathode of a direct current power supply. The zinc plating solution is composed of an aqueous solution containing a compound of a plating metal, conductive salts, a buffer, a pH adjuster, an additive, and the like. After electrification, metal ions in the galvanizing liquid move to the cathode under the action of potential difference to form a plating layer. The metal of the anode forms metal ions into the zinc plating bath to maintain the concentration of metal ions being plated. In some cases, such as chrome plating, insoluble anodes made of lead, lead-antimony alloys are used, which only serve to transport electrons and conduct current. The chromium ion concentration in the electrolyte is maintained by periodically adding a chromium compound to the bath. During galvanizing, the quality of the anode material, the components of the galvanizing solution, the temperature, the current density, the energization time, the stirring strength, the precipitated impurities, the power waveform and the like all affect the quality of the plating layer and need to be controlled in time.

The types of barrel plating are scientifically divided, and the shape and the axial direction of a roller used for barrel plating are taken as main basis. The shape of the roller is similar to that of the object, and the axial direction of the roller is the relation between the rotating shaft direction and the horizontal plane when the roller rotates. According to the difference of the two aspects of the roller, common barrel plating modes in electroplating production are divided into three major types, namely horizontal barrel plating, inclined barrel plating, vibration electroplating and the like.

In the prior art, barrel plating needs to take out barrel plating parts on the inner side of a barrel plating barrel after the barrel plating is completed, but the method for taking out the barrel plating barrel, taking out the barrel plating parts, putting in the parts to be barrel plated and finally putting back the parts to a barrel plating tank is low in efficiency.

Disclosure of Invention

In order to solve the above-mentioned drawbacks of the background art, the present invention provides a roll-type galvanizing apparatus and a method for operating the same, which are capable of performing barrel plating processing step by step without performing step-by-step processing in the same process, thereby improving processing efficiency.

The purpose of the invention can be realized by the following technical scheme:

the drum-type galvanizing equipment comprises a working support, wherein a barrel plating mechanism is arranged on the inner side of the working support, a transfer mechanism is arranged on the side wall of the working support facing the inner side, a barrel plating drum mechanism is arranged at one end of the transfer mechanism, which is far away from the inner side of the working support, and a movement control mechanism is arranged on the side wall of the working support facing the outer side.

Further, the working support comprises a movable bearing plate, a lifting driving groove is formed in the outer side of the movable bearing plate, an observation port is formed in the bottom of one end, facing the front end, of the movable bearing plate, a supporting baffle is connected to one end, far away from the movable bearing plate, of the observation port, and a barrel plating pool is arranged at the bottom end of the movable bearing plate.

Furthermore, the barrel plating mechanism comprises barrel plating basic supports at two ends, the barrel plating basic supports are arranged at the top end of the observation port, a barrel plating connecting support is arranged at the top end of each side of the barrel plating basic support, a barrel plating supporting beam is arranged at the inner side of the barrel plating connecting supports at the two ends, a first rotating driving wheel is arranged at the bottom end of the barrel plating supporting beam, a first rotating driving rod is connected to one end of the first rotating driving wheel facing the supporting baffle, a first rotating driving core support is arranged at one end of the first rotating driving rod away from the first rotating driving wheel, a first rotating driving core rod is arranged at the bottom end of the first rotating driving core support, a rotating extension rod is arranged at the inner side of the first rotating driving core rod, one end of the rotating extension rod away from the first rotating driving wheel is connected with a second rotating driving wheel, and one end of the second rotating driving wheel away from the first rotating driving wheel is connected with a second rotating driving rod, the one end that the second rotation drive wheel was kept away from to the second rotation actuating lever is connected with the second and rotates drive core support, second rotation drive core support top is connected with the second and rotates drive core pole, the one end that the second rotation drive core pole was kept away from the second rotation drive core support is connected with the joint support, joint support rear end is connected with drive transmission support, the one end that drive transmission support faced the outside is connected with drive steering mechanism, the one end that drive transmission support was kept away from to drive steering mechanism is connected with the drive core, the middle part top of barrel plating basic support is connected with the lifting control support.

Furthermore, the transfer mechanism comprises a transfer base plate, the transfer base plate is arranged on the side wall of the working support facing the inner side, the rear end of the transfer base plate is provided with an entering guide base plate, the entering guide base plate is a downward slope, one end of the entering guide base plate, which is far away from the transfer base plate, is provided with a first movable baffle core rod, one end of the first movable baffle core rod, which is far away from the entering guide base plate, is provided with a second one-way movable baffle, the second one-way movable baffle is a downward inclined slope, the bottom end of the second one-way movable baffle is provided with a first movable baffle support rod, one end of the second one-way movable baffle, which is far away from the first movable baffle core rod, is provided with a second movable baffle, the second movable baffle is movably connected to the side wall of the movable bearing plate facing the inner side, the bottom end of the second movable baffle is provided with a second movable baffle support rod, one end of the second movable baffle, which is far away from the second one-way movable baffle, is provided with a second guide base plate, the bottom end of the second guide substrate is fixedly connected with a limit baffle, and one end, far away from the limit baffle, of the second guide substrate is provided with a leading-out guide plate.

Further, the barrel-plating barrel mechanism comprises a barrel-plating barrel, the barrel-plating barrel is arranged at the bottom end of the barrel-plating mechanism, a plurality of groups of liquid leaking barrels are distributed on the outer side of the barrel-plating barrel in an array mode, driving wheels are arranged on the outer sides of two ends of the barrel-plating barrel, one ends, far away from the liquid leaking barrels, of the driving wheels are provided with connecting feeding pipes, feeding openings are formed in the top ends of the connecting feeding pipes, and one ends, far away from the connecting feeding pipes, of the feeding openings are movably connected with feeding control openings.

Further, the mobile control mechanism includes the lift drive core, the lift drive core sets up in the lateral wall towards the outside at work support both ends, lift drive core bottom is provided with lift removal linking bridge, the lift drive core was kept away from to the lift removal linking bridge one end is provided with the lift control pole, the lift control pole is kept away from the lift and is removed the one end swing joint of linking bridge and have the lift connecting plate, the lift control pole was kept away from to the lift connecting plate one end is provided with the lift driving plate, lift driving plate both ends are provided with transmission core support, transmission core support sets up in the lateral wall towards the outside of work support, the lift driving plate runs through the lift drive groove and connects in the lifting control board, the one end that transmission core support was kept away from to the lifting control board is provided with and lifts the frame.

The invention has the beneficial effects that:

the invention unifies the process of barrel plating operation, only carries out the operations of feeding, barrel plating and taking out in the same process, and finally unifies the taking out of parts, thereby improving the processing efficiency and the yield.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic diagram of a portion of the present invention;

FIG. 3 is a schematic diagram of a portion of the present invention;

FIG. 4 is a schematic view of a portion of the present invention;

FIG. 5 is a schematic view of a portion of the present invention;

fig. 6 is a partial structural schematic diagram of the present invention.

In the figure: 1. a working support; 11. moving the bearing plate; 12. a lifting driving groove; 13. an observation port; 14. a support baffle; 15. a barrel plating tank; 2. a barrel plating mechanism; 21. barrel plating the base support; 22. barrel-plating the connecting bracket; 23. barrel plating a supporting beam; 24. a first rotating drive wheel; 25. a first rotary drive rod; 26. a first rotationally driven core support; 27. a first rotationally driven core rod; 28. a transmission extension rod; 29. a second rotating drive wheel; 210. a second rotation drive lever; 211. a second rotationally driven core support; 212. a second rotationally driven core rod; 213. connecting a support bracket; 214. a drive transmission bracket; 215. driving a steering mechanism; 216. a drive core; 217. lifting the control bracket; 3. a transfer mechanism; 31. transferring the substrate; 32. an entrance guide substrate; 33. a first moving barrier core rod; 34. a second unidirectional moving baffle; 35. a first moving barrier support bar; 36. a second moving barrier; 37. a second movable baffle supporting rod; 38. a limit baffle; 39. a second guide substrate; 310. leading out a guide plate; 4. a barrel plating barrel mechanism; 41. barrel plating cylinder; 42. a liquid leakage cylinder; 43. a driving wheel; 44. connecting a feeding pipe; 45. a feeding port; 46. a feeding control port; 5. a movement control mechanism; 51. a lifting drive core; 52. the connecting bracket is lifted and moved; 53. a lifting control rod; 54. a lifting connecting plate; 55. a lifting transmission plate; 56. rotating the core support; 57. lifting the control plate; 58. and (5) lifting the frame.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "opening," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like are used in an orientation or positional relationship that is merely for convenience in describing and simplifying the description, and do not indicate or imply that the referenced component or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present invention.

As shown in figure 1, a barrel plating mechanism 2 is arranged on the inner side of a working support 1, a transfer mechanism 3 is arranged on the side wall of the working support 1 facing the inner side, a barrel plating barrel mechanism 4 is arranged at one end of the transfer mechanism 3 far away from the inner side of the working support 1, and a movement control mechanism 5 is arranged on the side wall of the working support 1 facing the outer side.

As shown in fig. 2 and 3, the working support 1 includes a movable bearing plate 11, a lifting driving groove 12 is formed outside the movable bearing plate 11, a viewing port 13 is formed at the bottom of one end of the movable bearing plate 11 facing the front end, a supporting baffle 14 is connected to one end of the viewing port 13 far away from the movable bearing plate 11, and a barrel plating tank 15 is arranged at the bottom end of the movable bearing plate 11.

The barrel plating mechanism 2 comprises barrel plating basic supports 21 at two ends, the barrel plating basic supports 21 are arranged at the top end of the observation port 13, a barrel plating connecting support 22 is arranged at the top end of each barrel plating basic support 21, barrel plating supporting beams 23 are arranged at the inner sides of the barrel plating connecting supports 22 at the two ends, a first rotating driving wheel 24 is arranged at the bottom end of each barrel plating supporting beam 23, a first rotating driving rod 25 is connected at one end of each first rotating driving wheel 24 facing the supporting baffle 14, a first rotating driving core support 26 is arranged at one end of each first rotating driving rod 25 far away from the first rotating driving wheel 24, a first rotating driving core rod 27 is arranged at the bottom end of each first rotating driving core support 26, a rotating extension rod 28 is arranged at the inner side of each first rotating driving core rod 27, a second rotating driving wheel 29 is connected at one end of each rotating extension rod 28 far away from the first rotating driving wheel 24, a second rotating driving rod 210 is connected at one end of each second rotating driving wheel 29 far away from the first rotating driving wheel 24, the end of the second rotary driving rod 210 far away from the second rotary driving wheel 29 is connected with a second rotary driving core support 211, the top end of the second rotary driving core support 211 is connected with a second rotary driving core rod 212, the end of the second rotary driving core rod 212 far away from the second rotary driving core support 211 is connected with a connection support 213, the rear end of the connection support 213 is connected with a driving transmission support 214, the end of the driving transmission support 214 facing to the outside is connected with a driving steering mechanism 215, the end of the driving steering mechanism 215 far away from the driving transmission support 214 is connected with a driving core 216, and the top end of the middle part of the barrel plating basic support 21 is connected with a lifting control support 217.

As shown in fig. 4, the barrel plating barrel mechanism 4 includes a barrel plating barrel 41, the barrel plating barrel 41 is disposed at the bottom end of the barrel plating mechanism 2, a plurality of sets of weeping barrels 42 are distributed in an array manner outside the barrel plating barrel 41, transmission wheels 43 are disposed outside both ends of the barrel plating barrel 41, a connection material inlet pipe 44 is disposed at one end of each transmission wheel 43 far away from the weeping barrel 42, a material inlet 45 is disposed at the top end of the connection material inlet pipe 44, and a material inlet control port 46 is movably connected to one end of the material inlet 45 far away from the connection material inlet pipe 44.

As shown in fig. 5, the transferring mechanism 3 includes a transferring base plate 31, the transferring base plate 31 is disposed on the inward-facing side wall of the working support 1, the rear end of the transferring base plate 31 is provided with an entering guide base plate 32, the entering guide base plate 32 is a downward slope, one end of the entering guide base plate 32 away from the transferring base plate 31 is provided with a first moving baffle core rod 33, one end of the first moving baffle core rod 33 away from the entering guide base plate 32 is provided with a second one-way moving baffle 34, the second one-way moving baffle 34 is a downward inclined slope, the bottom end of the second one-way moving baffle 34 is provided with a first moving baffle supporting rod 35, one end of the second one-way moving baffle 34 away from the first moving baffle core rod 33 is provided with a second moving baffle 36, the second moving baffle 36 is movably connected to the inward-facing side wall of the moving support plate 11, the bottom end of the second moving baffle 36 is provided with a second moving baffle supporting rod 37, a second guide base plate 39 is arranged at one end, away from the second one-way movable baffle 34, of the second movable baffle 36, a limit baffle 38 is fixedly connected to the bottom end of the second guide base plate 39, and a leading-out guide plate 310 is arranged at one end, away from the limit baffle 38, of the second guide base plate 39.

As shown in fig. 6, the movement control mechanism 5 includes a lifting driving core 51, the lifting driving core 51 is disposed on the outward side walls at the two ends of the working support 1, a lifting moving connecting support 52 is disposed at the bottom end of the lifting driving core 51, a lifting control rod 53 is disposed at one end of the lifting moving connecting support 52 away from the lifting driving core 51, a lifting connecting plate 54 is movably connected to one end of the lifting control rod 53 away from the lifting moving connecting support 52, a lifting transmission plate 55 is disposed at one end of the lifting connecting plate 54 away from the lifting control rod 53, transmission core supports 56 are disposed at the two ends of the lifting transmission plate 55, the transmission core supports 56 are disposed on the outward side walls of the working support 1, the lifting transmission plate 55 penetrates through the lifting driving groove 12 and is connected to a lifting control plate 57, and a lifting frame 58 is disposed at one end of the lifting control plate 57 away from the transmission core supports 56.

When in use, firstly, the feeding control port 46 is opened, the part to be barrel-plated is placed in the barrel-plating cylinder 41, then the feeding control port 46 is closed, the external lifting control bracket 217 is placed at the top end of the transfer substrate 31, the whole barrel-plating cylinder mechanism 4 can reach the bottom end under the guidance of the guide substrate 32, the barrel-plating cylinder mechanism 4 can be immersed in the barrel-plating tank, then the control driving core 216 starts to work, the barrel-plating cylinder 41 is driven to carry out barrel-plating in the barrel-plating tank through the transmission mechanisms such as the second rotation driving core rod 212, and the like, after the completion, the lifting driving core 51 at the two ends is driven, the lifting moving connecting bracket 52 drives the lifting control rod 53 to push the lifting connecting plate 54 to descend, so that the lifting frame 58 is lifted by the lifting control plate 57, the barrel-plating mechanism 2 with the barrel-plating cylinder mechanism 4 is lifted, and the barrel-plating mechanism 2 is moved out along with the leading-out guide plate 310 by the second moving baffle 36, and putting another barrel plating barrel mechanism 4 in which the part to be barrel plated is put again for the next round of treatment.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing shows and describes the general principles, principal features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed.

Claims

1. The drum-type galvanizing equipment comprises a working support (1) and is characterized in that a barrel plating mechanism (2) is arranged on the inner side of the working support (1), a transfer mechanism (3) is arranged on the side wall, facing the inner side, of the working support (1), a barrel plating drum mechanism (4) is arranged at one end, far away from the inner side of the working support (1), of the transfer mechanism (3), and a movement control mechanism (5) is arranged on the side wall, facing the outer side, of the working support (1).

2. The cylinder type galvanizing equipment as claimed in claim 1, wherein the working bracket (1) comprises a movable bearing plate (11), a lifting driving groove (12) is formed on the outer side of the movable bearing plate (11), a viewing port (13) is formed at the bottom of one end of the movable bearing plate (11) facing to the front end, a supporting baffle (14) is connected to one end of the viewing port (13) far away from the movable bearing plate (11), and a barrel plating pool (15) is formed at the bottom end of the movable bearing plate (11).

3. The drum-type galvanizing equipment according to claim 2, wherein the barrel plating mechanism (2) comprises barrel plating base supports (21) at two ends, the barrel plating base supports (21) are arranged at the top end of the observation opening (13), a barrel plating connecting support (22) is arranged at the top end of each barrel plating base support (21), barrel plating supporting beams (23) are arranged at the inner sides of the barrel plating connecting supports (22) at the two ends, a first rotating driving wheel (24) is arranged at the bottom end of each barrel plating supporting beam (23), a first rotating driving rod (25) is connected to one end of each first rotating driving wheel (24) facing the supporting baffle (14), a first rotating driving core support (26) is arranged at one end of each first rotating driving rod (25) far away from the first rotating driving wheel (24), a first rotating driving core rod (27) is arranged at the bottom end of each first rotating driving core support (26), a rotary extension rod (28) is arranged on the inner side of the first rotary driving core rod (27), one end of the rotary extension rod (28) far away from the first rotary driving wheel (24) is connected with a second rotary driving wheel (29), one end of the second rotary driving wheel (29) far away from the first rotary driving wheel (24) is connected with a second rotary driving rod (210), one end of the second rotary driving rod (210) far away from the second rotary driving wheel (29) is connected with a second rotary driving core support (211), the top end of the second rotary driving core support (211) is connected with a second rotary driving core rod (212), one end of the second rotary driving core rod (212) far away from the second rotary driving core support (211) is connected with a connecting and supporting support (213), the rear end of the connecting and supporting support (213) is connected with a driving transmission support (214), one end of the driving transmission support (214) facing to the outer side is connected with a driving and steering mechanism (215), one end of the driving steering mechanism (215) far away from the driving transmission support (214) is connected with a driving core (216), and the top end of the middle part of the barrel plating basic support (21) is connected with a lifting control support (217).

4. The cylinder type galvanizing apparatus according to claim 1, wherein the transfer mechanism (3) includes a transfer base plate (31), the transfer base plate (31) is disposed on the side wall of the working support (1) facing the inside, an entry guide base plate (32) is disposed at the rear end of the transfer base plate (31), the entry guide base plate (32) is a downward slope, a first moving baffle core rod (33) is disposed at one end of the entry guide base plate (32) away from the transfer base plate (31), a second one-way moving baffle (34) is disposed at one end of the first moving baffle core rod (33) away from the entry guide base plate (32), the second one-way moving baffle (34) is a downward slope, a first moving baffle support rod (35) is disposed at the bottom end of the second one-way moving baffle (34), and a second moving baffle (36) is disposed at one end of the second one-way moving baffle (34) away from the first moving baffle core rod (33), the second movable baffle (36) is movably connected to the side wall, facing the inner side, of the movable bearing plate (11), a second movable baffle supporting rod (37) is arranged at the bottom end of the second movable baffle (36), a second guide base plate (39) is arranged at one end, away from the second one-way movable baffle (34), of the second movable baffle (36), a limiting baffle (38) is fixedly connected to the bottom end of the second guide base plate (39), and a leading-out guide plate (310) is arranged at one end, away from the limiting baffle (38), of the second guide base plate (39).

5. The drum-type galvanizing equipment according to claim 1, wherein the barrel plating mechanism (4) comprises a barrel plating drum (41), the barrel plating drum (41) is arranged at the bottom end of the barrel plating mechanism (2), a plurality of groups of liquid leaking drums (42) are distributed in an array manner outside the barrel plating drum (41), transmission wheels (43) are arranged outside both ends of the barrel plating drum (41), a connecting material inlet pipe (44) is arranged at one end of each transmission wheel (43) far away from the liquid leaking drums (42), a material inlet (45) is arranged at the top end of each connecting material inlet pipe (44), and a material inlet control port (46) is movably connected to one end of each material inlet (45) far away from the connecting material inlet pipe (44).

6. The drum-type galvanizing equipment according to claim 2, wherein the movement control mechanism (5) comprises a lifting driving core (51), the lifting driving core (51) is arranged on the outward side wall of the two ends of the working support (1), a lifting moving connecting support (52) is arranged at the bottom end of the lifting driving core (51), a lifting control rod (53) is arranged at one end of the lifting moving connecting support (52) far away from the lifting driving core (51), a lifting connecting plate (54) is movably connected at one end of the lifting control rod (53) far away from the lifting moving connecting support (52), a lifting transmission plate (55) is arranged at one end of the lifting connecting plate (54) far away from the lifting control rod (53), a transmission core support (56) is arranged at two ends of the lifting transmission plate (55), and the transmission core support (56) is arranged on the outward side wall of the working support (1), the lifting transmission plate (55) penetrates through the lifting driving groove (12) to be connected to the lifting control plate (57), and a lifting frame (58) is arranged at one end, far away from the transmission core support (56), of the lifting control plate (57).