CN114990680B - Drum-type galvanization equipment and working method thereof - Google Patents

Abstract

The invention discloses drum-type galvanization equipment and a working method thereof, which relate to the technical field related to galvanization 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 cylinder mechanism is arranged at one end of the transfer mechanism far away from the inner side of the working support, a movable 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 formed in 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 at 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 invention is used, the flow of barrel plating operation is unified, in the same flow, only the operations of feeding, barrel plating and taking out are carried out, and finally, the parts are taken out uniformly, so that the treatment efficiency is improved, and the yield is improved.

Description

Drum-type galvanization equipment and working method thereof

Technical Field

The invention relates to the technical field related to galvanization technology, in particular to drum-type galvanization equipment 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 roles of beautiful appearance, rust prevention and the like, and a to-be-plated piece which is cleaned and specially pretreated in a plating tank containing galvanization liquid is used as a cathode, a plating metal is used for manufacturing an anode, and the two poles 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 plating metal compound, a conductive salt, a buffer, a pH adjuster, an additive, and the like. After the current is conducted, metal ions in the galvanizing liquid move to the cathode to form a plating layer under the action of potential difference. The metal forming metal ions of the anode enter the galvanising solution to maintain the concentration of the metal ions being plated. In some cases, such as chrome plating, insoluble anodes made of lead and lead-antimony alloys are used, which only serve to transfer electrons and conduct current. The concentration of chromium ions in the electrolyte is maintained by periodically adding a chromium compound to the plating solution. During galvanization, the quality of the plating layer is affected by the quality of the anode material, the components of the galvanization liquid, the temperature, the current density, the energizing time, the stirring strength, the precipitated impurities, the power waveform and the like, and the control is needed 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 mainly used as the basis. The shape of the roller refers to the shape of the roller similar to what kind of device, and the axial direction of the roller refers to what relation the direction of the rotation axis and the horizontal plane show when the roller rotates. According to the difference of the two aspects of the roller, the common barrel plating mode in the electroplating production is divided into three main types of horizontal barrel plating, inclined barrel plating and vibration electroplating.

In the prior art, the barrel plating needs to take out the barrel plating part on the inner side of the barrel plating barrel after the barrel plating is finished, however, the existing barrel plating barrel is taken out, the barrel plating part is taken out, the part to be barrel plated is put into the barrel plating tank, and the efficiency of the method for finally putting the part back into the barrel plating tank is lower.

Disclosure of Invention

In order to solve the defects in the background art, the invention aims to provide drum-type galvanization equipment and a working method thereof, and aims to perform barrel plating in steps, and the barrel plating can be performed in the same flow without performing the steps, so that the treatment efficiency is improved.

The aim of the invention can be achieved by the following technical scheme:

the drum-type galvanization 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 mechanism is arranged at one end of the transfer mechanism, 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 work support includes the removal loading board, has seted up the lift drive groove in the removal loading board outside, and the one end bottom of removal loading board towards the front end is provided with the viewing aperture, and the one end that the viewing aperture kept away from the removal loading board is connected with the support baffle, and the removal loading board bottom is provided with the barrel plating pond.

Further, barrel plating mechanism includes the barrel plating foundation support at both ends, barrel plating foundation support sets up the top of viewing aperture, the top of every side barrel plating foundation support all is provided with barrel plating linking bridge, the barrel plating linking bridge inboard at both ends is provided with barrel plating supporting beam, barrel plating supporting beam bottom is provided with first rotation drive wheel, the one end of first rotation drive wheel towards supporting baffle is connected with first rotation actuating lever, the one end that first rotation actuating lever kept away from first rotation drive wheel is provided with first rotation actuating core support, first rotation actuating core support bottom is provided with first rotation actuating core rod, first rotation actuating core rod inboard is provided with the rotation extension rod, the one end that rotation extension rod kept away from first rotation drive wheel is connected with the second rotation drive wheel, the one end that second rotation drive wheel kept away from first rotation drive wheel is connected with the second rotation actuating lever, the one end that the second rotation actuating core support top was kept away from the second rotation actuating core support is connected with the second rotation actuating core rod, the second rotation actuating core rod is kept away from second rotation actuating core support and is connected with first rotation actuating core support, first rotation actuating core support is connected with the back support connection support, the steering support connection has the lifting mechanism to drive core support, the one end that the steering support was kept away from first rotation actuating support connection has the top, the lifting mechanism is kept away from the top of the first rotation actuating support connection, the top is connected with the lifting of the foundation support, the lifting mechanism is connected with the top of the lifting mechanism.

Further, transfer mechanism includes the transfer base plate, transfer base plate sets up in the lateral wall of work support towards inboard, transfer base plate rear end is provided with gets into the guide base plate, get into the guide base plate and be decurrent slope, the one end that gets into the guide base plate and keep away from the transfer base plate is provided with first removal baffle core pole, the one end that gets into the guide base plate is kept away from to first removal baffle core pole is provided with second unidirectional movement baffle, second unidirectional movement baffle is decurrent slope, second unidirectional movement baffle bottom is provided with first removal baffle bracing piece, the one end that first removal baffle core pole was kept away from to second unidirectional movement baffle is provided with the second removal baffle, second removal baffle swing joint is in the lateral wall of moving the loading board towards inboard, second removal baffle bottom is provided with the second removal baffle bracing piece, the one end that second unidirectional movement baffle was kept away from to the second removal baffle is provided with the second guide base plate, second guide base plate bottom fixedly connected with limit baffle, limit baffle's one end is kept away from to the second guide base plate is provided with and draws forth the baffle.

Further, barrel plating section of thick bamboo mechanism includes barrel plating section of thick bamboo, and barrel plating section of thick bamboo sets up in the bottom of barrel plating mechanism, and barrel plating section of thick bamboo outside array distribution has multiunit weeping section of thick bamboo, and barrel plating section of thick bamboo both ends outside all is provided with the drive wheel, and the drive wheel is kept away from the one end of weeping section of thick bamboo and is provided with the connection pan feeding pipe, and connection pan feeding top is provided with the pan feeding mouth, and the pan feeding mouth is kept away from the one end swing joint who connects the pan feeding pipe and is had the pan feeding control mouth.

Further, the mobile control mechanism comprises a lifting driving core, the lifting driving core is arranged on the side wall of the two ends of the working support towards the outer side, the bottom end of the lifting driving core is provided with a lifting moving connecting support, one end of the lifting moving connecting support, far away from the lifting driving core, is provided with a lifting control rod, one end of the lifting control rod, far away from the lifting moving connecting support, is movably connected with a lifting connecting plate, one end of the lifting connecting plate, far away from the lifting control rod, is provided with a lifting transmission plate, two ends of the lifting transmission plate are provided with transmission core supports, the transmission core supports are arranged on the side wall of the working support towards the outer side, the lifting transmission plate penetrates through the lifting driving groove to be connected with a lifting control plate, and one end of the lifting control plate, far away from the transmission core supports, is provided with a lifting frame.

The invention has the beneficial effects that:

according to the invention, by unifying the flow of barrel plating operation, only feeding, barrel plating and taking out operations are performed in the same flow, and finally parts are uniformly taken out, so that the treatment efficiency is improved, and the yield is improved.

Drawings

The invention is further described below 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 view of a portion of the structure of the present invention;

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

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

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

fig. 6 is a schematic view of a part of the structure of the present invention.

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

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be understood that the terms "open," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like indicate orientation or positional relationships, merely for convenience in describing the present invention and to simplify the description, and do not indicate or imply that the components or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

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

As shown in fig. 2 and 3, the working support 1 comprises a movable bearing plate 11, a lifting driving groove 12 is formed in the outer side of the movable bearing plate 11, an observation opening 13 is formed in the bottom of one end of the movable bearing plate 11, which faces the front end, one end, away from the movable bearing plate 11, of the observation opening 13 is connected with a supporting baffle 14, and a barrel plating pool 15 is arranged at the bottom end of the movable bearing plate 11.

The barrel plating mechanism 2 comprises barrel plating basic brackets 21 at two ends, the barrel plating basic brackets 21 are arranged at the top end of the observation port 13, barrel plating connecting brackets 22 are arranged at the top end of each side of the barrel plating basic brackets 21, barrel plating supporting beams 23 are arranged at the inner sides of the barrel plating connecting brackets 22 at two ends, first rotating driving wheels 24 are arranged at the bottom ends of the barrel plating supporting beams 23, first rotating driving rods 25 are connected with one ends of the first rotating driving wheels 24 facing the supporting baffle plates 14, first rotating driving core brackets 26 are arranged at one ends of the first rotating driving rods 25 far away from the first rotating driving wheels 24, first rotating driving core rods 27 are arranged at the bottom ends of the first rotating driving core brackets 26, rotating extension rods 28 are arranged at the inner sides of the first rotating driving core rods 27, one ends of the rotating extension rods 28 far away from the first rotating driving wheels 24 are connected with second rotating driving wheels 29, the one end that second rotation drive wheel 29 kept away from first rotation drive wheel 24 is connected with second rotation drive pole 210, the one end that second rotation drive pole 210 kept away from second rotation drive wheel 29 is connected with second rotation drive core support 211, second rotation drive core support 211 top is connected with second rotation drive core pole 212, the one end that second rotation drive core pole 212 kept away from second rotation drive core support 211 is connected with connection support bracket 213, connection support bracket 213 rear end is connected with drive transmission support 214, the one end that drive transmission support 214 was towards the outside is connected with drive steering mechanism 215, the one end that drive steering mechanism 215 kept away from drive transmission support 214 is connected with drive core 216, the middle part top of barrel plating basic support 21 is connected with 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 groups of liquid leakage barrels 42 are distributed on the outer side of the barrel plating barrel 41 in an array manner, driving wheels 43 are disposed on the outer sides of two ends of the barrel plating barrel 41, one end, far away from the liquid leakage barrels 42, of each driving wheel 43 is provided with a connecting feeding pipe 44, the top end of each connecting feeding pipe 44 is provided with a feeding port 45, and one end, far away from the connecting feeding pipe 44, of each feeding port 45 is movably connected with a feeding control port 46.

As shown in fig. 5, the transfer mechanism 3 includes a transfer substrate 31, the transfer substrate 31 is disposed on a sidewall of the working support 1 facing the inner side, an entry guide substrate 32 is disposed at the rear end of the transfer substrate 31, the entry guide substrate 32 is a downward slope, a first moving baffle core rod 33 is disposed at one end of the entry guide substrate 32 far away from the transfer substrate 31, a second unidirectional moving baffle 34 is disposed at one end of the first moving baffle core rod 33 far away from the entry guide substrate 32, the second unidirectional moving baffle 34 is a downward-inclined slope, a first moving baffle support rod 35 is disposed at the bottom end of the second unidirectional moving baffle 34, a second moving baffle 36 is disposed at one end of the second unidirectional moving baffle 34 far away from the first moving baffle core rod 33, a second moving baffle support rod 37 is disposed at the bottom end of the second moving baffle 36, a second guiding substrate 39 is fixedly connected with a limiting baffle 38, and an extraction guide 310 is disposed at one end of the second guiding substrate 39 far away from the limiting baffle 38.

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 lateral wall of 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 at 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 two ends of the lifting transmission plate 55, transmission core supports 56 are disposed on the lateral wall of the working support 1, the lifting transmission plate 55 penetrates through the lifting driving groove 12 to be connected with 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 the device is used, firstly, the feeding control opening 46 is opened, a part to be barrel plated is placed in the barrel plating barrel 41, then the feeding control opening 46 is closed, an external lifting control bracket 217 is placed at the top end of the transfer substrate 31, the whole barrel plating barrel mechanism 4 can reach the bottom end under the guidance of the guide substrate 32, the barrel plating barrel mechanism 4 is immersed in a barrel plating pool, then the driving core 216 is controlled to start working, the barrel plating barrel 41 is driven to barrel plate in the barrel plating pool through the transmission mechanism such as the second rotary driving core rod 212, after that, the lifting driving core 51 at 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 control plate 57 lifts the lifting bracket 58, the barrel plating mechanism 2 is lifted up with the barrel plating barrel mechanism 4, the barrel plating mechanism 2 is moved out along with the lead-out guide plate 310 through the second movable baffle 36, and the barrel plating barrel mechanism 4 into another part to be barrel plating is placed in again, and then the next round of treatment is carried out.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, 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 present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. 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 has shown and described the basic 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, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims.

Claims (4)

1. The drum-type galvanization 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 inner side wall of the working support (1), a barrel plating cylinder 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 outer side wall of the working support (1);

the transfer mechanism (3) comprises a transfer substrate (31), the transfer substrate (31) is arranged on the side wall of the working support (1) facing the inner side, the rear end of the transfer substrate (31) is provided with an entering guide substrate (32), the entering guide substrate (32) is a downward slope, one end of the entering guide substrate (32) far away from the transfer substrate (31) is provided with a first moving baffle core rod (33), one end of the first moving baffle core rod (33) far away from the entering guide substrate (32) is provided with a second unidirectional moving baffle (34), the second unidirectional moving baffle (34) is a downward-inclined slope, the bottom end of the second unidirectional moving baffle (34) is provided with a first moving baffle supporting rod (35), one end of the second unidirectional moving baffle (34) far away from the first moving baffle core rod (33) is provided with a second moving baffle (36), the bottom end of the second moving baffle (36) is movably connected with the side wall of the moving support plate (11) facing the inner side, the bottom end of the second moving baffle (36) is provided with a second moving baffle supporting rod (37), one end of the second unidirectional moving baffle (36) far away from the second unidirectional moving baffle (34) is provided with a second guide substrate (39), the bottom end of the second unidirectional moving baffle (38) is connected with a second guide substrate (39), an extraction guide plate (310) is arranged at one end of the second guide substrate (39) far away from the limit baffle plate (38);

the lifting control mechanism (5) comprises a lifting driving core (51), the lifting driving core (51) is arranged on the lateral walls of the two ends of the working support (1) towards the outer side, 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, far away from the lifting driving core (51), of the lifting connecting support (52), a lifting connecting plate (54) is movably connected to one end, far away from the lifting connecting rod (52), of the lifting connecting plate (54), a lifting transmission plate (55) is arranged at one end, far away from the lifting control rod (53), of the lifting connecting plate (54), transmission core supports (56) are arranged at the two ends of the lifting transmission plate (55), the transmission core supports (56) are arranged on the lateral walls of the working support (1) towards the outer side, the lifting transmission plate (55) penetrates through the lifting driving groove (12) to be connected to a lifting control plate (57), and a lifting frame (58) is arranged at one end, far away from the transmission core supports (56), of the lifting control plate (57).

Through the lift driving core (51) at drive both ends, let lift movable connection support (52) drive lift control pole (53), promote lift connecting plate (54) decline, and then realize letting lifting control board (57) lift frame (58), let barrel plating mechanism (2) take barrel plating section of thick bamboo mechanism (4) lifting, rethread second movable baffle (36) let barrel plating mechanism (2) follow and draw forth baffle (310) and shift out.

2. A drum-type galvanization equipment according to claim 1, characterized in that the working support (1) comprises a movable bearing plate (11), a lifting driving groove (12) is formed in the outer side of the movable bearing plate (11), an observation opening (13) is formed in 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 observation opening (13) far away from the movable bearing plate (11), and a barrel plating pool (15) is formed in the bottom end of the movable bearing plate (11).

3. The drum-type galvanization apparatus according to claim 2, wherein the barrel plating mechanism (2) comprises barrel plating base brackets (21) at two ends, the barrel plating base brackets (21) are arranged at the top ends of the observation openings (13), barrel plating connecting brackets (22) are arranged at the top ends of each side of the barrel plating base brackets (21), barrel plating supporting beams (23) are arranged at the inner sides of the barrel plating connecting brackets (22) at two ends, first rotary driving wheels (24) are arranged at the bottom ends of the barrel plating supporting beams (23), first rotary driving rods (25) are connected to one ends of the first rotary driving wheels (24) facing the supporting baffle plates (14), first rotary driving core brackets (26) are arranged at one ends of the first rotary driving rods (25) far away from the first rotary driving wheels (24), first rotary driving core rods (27) are arranged at the bottom ends of the first rotary driving core brackets (26), rotary extending rods (28) are arranged at the inner sides of the first rotary extending rods (27), second rotary driving wheels (29) are connected to one ends of the rotary extending rods (28) far away from the first rotary driving wheels (24), second rotary driving wheels (29) are connected to one ends of the first rotary driving wheels (29) far away from the first rotary driving wheels (210), the second rotates and drives core support (211) top and is connected with second and rotates and drive core pole (212), the one end that second rotated and drive core pole (212) kept away from second rotated and drive core support (211) is connected with connection support bracket (213), connection support bracket (213) rear end is connected with drive transmission support (214), drive transmission support (214) are connected with drive steering mechanism (215) towards the one end in outside, drive steering mechanism (215) keep away from drive transmission support (214) one end and are connected with drive core (216), the middle part top of barrel plating basic support (21) is connected with lifting control support (217).

4. A drum-type galvanization equipment according to claim 1, characterized in that the drum-type galvanization mechanism (4) comprises a drum (41), the drum (41) is arranged at the bottom end of the drum-type galvanization mechanism (2), a plurality of groups of liquid leakage drums (42) are distributed on the outer side of the drum (41) in an array mode, driving wheels (43) are arranged on the outer sides of two ends of the drum (41), one end, far away from the liquid leakage drums (42), of each driving wheel (43) is provided with a connecting feeding pipe (44), the top end of the connecting feeding pipe (44) is provided with a feeding port (45), and one end, far away from the connecting feeding pipe (44), of each feeding port (45) is movably connected with a feeding control port (46).