CN218910516U - General type part mechanical galvanization continuous production line - Google Patents

Abstract

The utility model discloses a general part mechanical galvanization continuous production line which comprises a pretreatment station, a heavy object loading station, a mechanical galvanization cylinder, a blanking and conveying station, a separation station, a glass bead recycling station, a drying station, an operation platform and the like. The utility model discloses a general class part mechanical galvanization production process's mechanical type heavy object material loading, plate a blanking, plate a separation, glass pearl's mechanical type separation and transport retrieval and utilization, obviously reduced artifical intensity of labour, effectively improved mechanical galvanization's work efficiency, be convenient for semi-mechanized continuous production.

Description

General type part mechanical galvanization continuous production line

Technical Field

The utility model relates to the technical field of mechanical plating technology production lines, in particular to the technical field of general part mechanical zinc plating continuous production lines.

Background

The mechanical plating is to put the steel parts subjected to oil removal, rust and wax into a rotary plating barrel, add water and impact medium such as glass beads to form a fluid environment with collision and rubbing motion, add zinc powder and medicament according to the preset plating thickness, form a plating layer on the steel surface under the combined action of physical, chemical adsorption and mechanical collision, then separate the workpiece from the glass beads, and dry the workpiece. However, in the current mechanical galvanization production, the heavy object feeding process, the plating part separating process and the drying process are mainly manually operated; not only has high labor intensity and low production efficiency, but also has potential safety hazard at any time. In addition, most of common parts are small-sized fasteners with grooves or internal threads, such as bolts, nuts, gaskets and the like, and the fasteners are not thoroughly separated when magnetic separation is adopted, and fine glass beads are often remained at the grooves or the threaded parts; and moreover, the stacking density of the general parts is high, the materials are difficult to dry out during manual spreading and drying, and the quality defect of chromatic aberration of the plating layer is often caused. Therefore, the mechanical galvanization production line with low design labor intensity and compact working procedures and capable of realizing continuous production becomes a problem to be solved urgently by general part manufacturing enterprises.

Disclosure of Invention

In order to solve the problems in the prior art, the inventor designs a general part mechanical galvanization production line which can realize continuous production, compact working procedure, low labor intensity and stable operation through research and development, and specifically, the production line is realized as follows:

a general part mechanical galvanization continuous production line comprises stations which are connected in sequence:

the pretreatment station comprises a portal frame (28) which moves along a track linearly and has lifting and moving actions, at least one degreasing tank (21), at least one rinsing tank (23), at least one pickling tank (25), at least one liquid control tank (27), and a roller with parts sequentially passes through the degreasing tank (21), the rinsing tank (23), the pickling tank (25), the liquid control tank (27) and enters the feeding station by means of the portal frame (28); the degreasing device comprises a degreasing tank (21), a standby degreasing tank (22), a first rinsing tank (23), a second rinsing tank (24), a pickling tank (25), a standby pickling tank (26) and a liquid control tank (27) in sequence; under the action of motor driving force, the roller and the general parts loaded in the roller can finish lifting in each groove body and moving and staying of the groove bodies at different positions, and after degreasing is finished, the general parts in the roller are unloaded into a hopper (31).

The feeding station comprises a feeding device, and particularly comprises a hopper (31), a transverse traveling crane (32) and a hydraulic feeding device (33), wherein the feeding device is connected among a liquid control groove (27), a mechanical galvanization cylinder and an operation platform (10), the hopper (31) filled with universal parts with certain mass is arranged at the bottom of the lower end of the hopper groove of the hydraulic feeding device (33) under the lifting of the transverse traveling crane (32), a hydraulic motor is started, the lower end of the hopper groove of the hydraulic feeding device (33) and the embedded hopper (31) are in arc-shaped ascending, the upper end of the hopper groove of the hydraulic feeding device (33) is in arc-descending, and when the lower end of the hopper groove of the hydraulic feeding device (33) is in a certain height, the universal parts in the embedded hopper (31) are moved out of the hopper groove (31) and slide to the other end of the hopper groove of the hydraulic feeding device (33), and enter a cylinder opening of the mechanical galvanization cylinder (41); the hydraulic feeding device (33) is provided with two sets, which are arranged right in front of the mechanical galvanization cylinder;

the mechanical galvanizing station comprises a mechanical galvanizing cylinder, and a discharge opening of the feeding device is in butt joint with a cylinder (41) opening of the mechanical galvanizing cylinder; the mechanical galvanizing cylinder consists of a cylinder body (41) and a cylinder bottom rail (42), wherein the cylinder bottom rail (42) is arc-shaped, and the cylinder body (41) can move along the arc shape of the cylinder bottom rail (42); when the heavy objects are fed, the cylinder body (41) moves to a designated position along the arc shape of the plating cylinder bottom rail (42), so that a cylinder opening of the cylinder body (41) is convenient to receive general parts sliding in a bucket groove of the hydraulic feeding device (33); when the plating and discharging are finished, the cylinder body (41) moves to a designated position along the arc shape of the plating cylinder bottom rail (42), so that the general plating parts in the cylinder body (41) can be conveniently discharged on the blanking vibration feeder (51) through the cylinder opening; the plating barrels are symmetrically distributed on two sides of the blanking vibration feeder (51).

The blanking and conveying station comprises a blanking vibration conveyor (51); the tail end of the vibrating screen is connected with a mechanical reciprocating vibrating screen (61); the separation station comprises a mechanical reciprocating vibrating screen (61) connected to the tail end of the blanking vibrating conveyor (51); the glass bead recovery station comprises a recovery bottom box (71) positioned below the mechanical reciprocating vibrating screen (61); when the blanking vibration feeder (51) sends the general plating pieces and glass beads to the screen mesh of the mechanical reciprocating vibration screen (61) for screening separation, the glass beads and water falling from the screen mesh enter a recycling bottom box (71), and the plating pieces on the screen mesh enter a material basket in a hot water tank (81); the glass beads and water in the recovery bottom box (71) are sent to a storage box (73) arranged above the cylinder body (41) through a delivery pump (72), when the glass beads need to be added, a valve of the storage box (73) is opened, and the glass beads can be added into any plating cylinder through a pipeline.

The drying station sequentially comprises a hot water tank (81), a centrifugal machine (82), a drying vibration material conveyer (84), a dryer (85), a crane (83) and a material basket, wherein the hot water tank (81), the centrifugal machine (82) and the drying vibration material conveyer (84) are connected to the rear end of the mechanical reciprocating vibration screen (61), and the crane (83) and the material basket are arranged above the hot water tank (81), the centrifugal machine (82) and the drying vibration material conveyer. The general plating piece falling into the basket is placed in a hot water tank (81) and stays for 1-2 minutes, then is lifted to a centrifugal machine (82) for spin-drying treatment, is lifted to a drying vibration feeder (84) for blanking, and the plating piece is dried by a dryer (85) after blanking.

Further, the product also comprises an operation platform (10), wherein the operation platform (10) is arranged beside the feeding device, and the operation platform (10) is arranged at the position close to the mechanical galvanizing cylinder and is used for completing the addition of liquid materials (water, sulfuric acid, additive solution and the like), powder (zinc powder) and controlling the rotating speed and angle of the cylinder. The feeding devices and the mechanical galvanization cylinders are arranged in two groups, the two feeding devices (33) share one transverse crane (32), and the two hoppers (31) are respectively positioned at two ends of the transverse crane (32) during feeding; the two mechanical galvanization cylinders are respectively arranged on two sides of the blanking vibration feeder (51) and symmetrically distributed. The general parts are bolts, nuts or gaskets.

The working principle of the utility model is introduced:

after the pickling control liquid is finished, the to-be-plated piece is discharged into a mechanical galvanizing plating cylinder after rising through a feeding device, other materials such as glass beads, galvanizing and the like are also matched into the plating cylinder, the cylinder body moves to a designated position along the arc shape of the bottom rail of the plating cylinder and is well adjusted in a cylinder opening angle, according to the conventional mechanical galvanizing process, the processes of rinsing in the cylinder, copper flashing, base layer establishment, coating thickening and polishing of the to-be-plated piece are finished according to the thickness and quality requirements of the to-be-plated piece, the galvanizing process is finished, then the general-purpose plating piece is discharged onto a blanking vibration material conveyor through the cylinder opening, the general-purpose plating piece is fed into a mechanical reciprocating vibration sieve in a front of the vibration material conveyor under the vibration effect of the vibration material conveyor, the glass beads, the plating liquid and a small amount of spraying water fall into a recycling bottom box after sieving, the plating piece on the sieve moves and is blanked into a basket to be positioned in a hot water tank, the basket stays in the hot water tank for 1-2 minutes, the basket is lifted to be dried through the material basket to a centrifugal machine, and then the general-purpose plating piece is lifted to be dried, and the blanking vibration material basket is conveyed to a blanking vibration material conveyor, and the drying machine is carried, and finally the surface of the drying piece is cleaned, and dried. If the processed object is a heat-treated general fastener part, the part can directly enter a pickling tank, a standby pickling tank and a liquid control tank without degreasing and rinsing, and then the mechanical galvanization processing of the part is finished according to the same working procedures.

The beneficial effects of the utility model are introduced as follows: the continuous production line for mechanical galvanizing of the general parts is realized, and the continuous production line is integrally connected from pretreatment, feeding, galvanizing, mechanical screening, discharging and drying to full-process stations for standby, such as recovery and circulation of glass beads, so that controllable production line equipment is formed, the working efficiency of mechanical galvanizing of the general parts is effectively improved, the labor intensity is reduced, the labor input is reduced, and the continuous and automatic production with controllable yield is realized.

Drawings

Fig. 1 is a schematic structural diagram of a production line for performing general part galvanizing work on a general part mechanical galvanizing continuous production line.

Wherein: 10-operation platform, 21-degreasing tank, 22-standby degreasing tank, 23-first rinsing tank, 24-second rinsing tank, 25-pickling tank, 26-standby pickling tank, 27-liquid control tank, 28-portal frame, 31-hopper, 32-transverse driving, 33-hydraulic feeding device, 41-cylinder, 42-plating cylinder bottom rail, 51-blanking vibration conveyor, 61-mechanical reciprocating vibration sieve, 71-recovery bottom box, 72-conveying pump, 73-storage box, 81-hot water tank, 82-centrifuge, 83-row crane, 84-drying vibration conveyor and 85-dryer.

Detailed Description

The objects, technical solutions and advantages of the present utility model will become more apparent by the following detailed description of the present utility model with reference to the accompanying drawings. It should be understood that the description is only illustrative and is not intended to limit the scope of the utility model. In addition, in the following description, descriptions of well-known structures and techniques are omitted so as not to unnecessarily obscure the present utility model.

Example 1: a general part mechanical galvanization continuous production line comprises the following components connected in sequence: the device comprises a pretreatment station, a feeding station, a mechanical galvanization station, a blanking and conveying station, a separation station, a glass bead recovery station and a drying station; the pretreatment station is a portal frame 28 and a roller station which move along a track linearly and have lifting and moving actions, wherein the portal frame 28 and the roller station are degreasing, rinsing, pickling and liquid controlling, the heavy object loading station is a loading integrated device which comprises a hopper 31, a transverse traveling crane 32 and a hydraulic loading device 33 and is used for adding general parts into a cylinder 41 of a mechanical galvanizing cylinder, the mechanical galvanizing cylinder is an olive-type mechanical device which is formed by the cylinder 41 and a bottom rail 42 of the galvanizing cylinder and can realize rotation and certain angle steering, the blanking and material conveying station is a vibrating material conveying machine 51, the separation station is a device for completing plating parts, glass beads and water separation by a mechanical reciprocating vibrating screen 61, the glass bead recycling station is a recycling integrated device which is formed by a recycling bottom box 71, a conveying pump 72 and a storage box 73 and is used for collecting, conveying and adding the glass beads, the drying station is a device for completing the hot water immersion, centrifugal drying and drying of plating parts which are formed by linear distribution of a hot water tank 81, a centrifugal machine 82, a traveling crane 83, a vibrating material conveying machine 84 and a drying machine 85, and the drying device is an operating platform (a zinc powder plating platform, a water solution, a zinc powder plating platform, a zinc powder additive and a water adding agent) and a plating platform (a water platform, a zinc powder additive) are arranged at a position and a control platform 10 and a water adding platform and a rotary speed and a powder adding platform (a control platform and an additive and a powder adding platform and a 10). The pretreatment station comprises a degreasing tank 21, a standby degreasing tank 22, a first rinsing tank 23, a second rinsing tank 24, a pickling tank 25, a standby pickling tank 26, a liquid control tank 27, a portal frame 28 which moves linearly along a track and has lifting and moving actions, and a roller, wherein the roller and general parts loaded into the roller can be lifted in each tank and moved and stopped at different positions by the action of motor driving force, and the general parts in the roller are discharged into a hopper 31 of a weight feeding device after liquid control. When the workpiece to be plated is a heat-treated universal fastener: the roller is lifted and moved out after a certain time and moved forward to a liquid control tank 27 for liquid control, the roller is lifted and moved out after a certain time and moved forward to a discharging station,

the pretreatment station comprises a groove body, a hexagonal roller and a linear gantry type lifting device which are commonly used in electroplating pretreatment, and can be directly purchased in the market as products of Fulong environmental protection technology Co., ltd. In Han, and can be entrusted to surface treatment equipment manufacturers for manufacturing. The heavy object material loading station comprises a hopper 31, a transverse traveling crane 32 and a hydraulic loading device 33, wherein the hopper 31 filled with universal parts with certain mass transversely moves under the lifting of the transverse traveling crane 32 and is filled in the bottom of the bucket lower end of the hydraulic loading device 33, a hydraulic motor is started, the bucket lower end of the hydraulic loading device 33 and the embedded hopper 31 are in arc-shaped ascending, the bucket upper end of the hydraulic loading device 33 is in arc-shaped descending, and when the bucket lower end of the hydraulic loading device 33 is in a certain height, the universal parts in the embedded hopper 31 are moved out of the hopper 31 and slide to the other end of the bucket of the hydraulic loading device 33, and enter the barrel mouth of the mechanical galvanization barrel 41. The components of the heavy object feeding station are hydraulic tipping bucket type feeding and lifting equipment used in the mechanical industry, and the heavy object feeding station can be directly purchased in the market (such as products of Fulong environmental protection technology Co., ltd.) or entrusted to the manufacturer of mechanical equipment.

The mechanical galvanizing cylinder consists of a cylinder 41 and a cylinder bottom rail 42, wherein the cylinder bottom rail 42 is arc-shaped, and the cylinder 41 can turn along the arc shape of the cylinder bottom rail 42; when the heavy objects are fed, the cylinder 41 is turned to a designated position along the arc shape of the plating cylinder bottom rail 42, so that the cylinder mouth of the cylinder 41 can receive general parts sliding in the bucket groove of the hydraulic feeding device 33 conveniently; when the plating discharge is finished, the cylinder 41 is turned to a designated position along the arc shape of the plating cylinder bottom rail 42, so that the general plating parts in the cylinder 41 can be conveniently discharged on the blanking vibration feeder 51 through the cylinder opening; the number of the plating barrels is two, and the plating barrels are symmetrically distributed on two sides of the blanking vibration conveyor 51. The mechanical galvanizing cylinder is a conventional cylinder for the traditional mechanical galvanizing production, and the transmission mode is traditional gear transmission and hydraulic transmission, so that the mechanical galvanizing cylinder can be directly purchased in the market (such as products of Fulong environmental protection technology Co., ltd. In the handnumber city), and can be entrusted to the manufacture of mechanical equipment manufacturers.

The blanking and conveying station is a blanking and vibrating conveyor 51, and the blanking and vibrating conveyor 51 conveys the general plating pieces and glass beads to a mechanical reciprocating vibrating screen 61 during discharging. The blanking and conveying station is a vibration type conveying machine commonly used in the field of mechanical conveying, and can be directly purchased in the market as products of Fulong environmental protection technology limited company in Han and also can be entrusted to mechanical equipment manufacturers for manufacturing. When the blanking vibration feeder 51 delivers the general type plating and glass beads to the screen mesh surface of the mechanical reciprocating vibration screen (61), the glass beads and water fall into the recovery bottom box 71 under the auxiliary effect of spraying, and the plating then goes forward and blanking into the basket.

The glass bead recycling station consists of a recycling bottom box 71, a conveying pump 72 and a storage box 73; during operation, the glass beads and water in the recovery bottom box 71 are sent to the storage box 73 arranged above the cylinder 41 through the delivery pump 72, and when the glass beads need to be added, the valve of the storage box 73 is opened, and the glass beads can be added into any plating cylinder through a pipeline. The components of the glass bead recycling station are a box body and a conveying pump 72 which are commonly used in the field of chemical equipment, and the glass bead recycling station can be directly purchased in the market (such as products of Fulong environmental protection technology Co., ltd.) or can be entrusted to equipment manufacturers.

The drying station is connected by a hot water tank 81, a centrifugal machine 82, a traveling crane 83, a drying vibration material conveyer 84 and a dryer 85 in a straight line, a general plating piece falling into the material basket stays in the water tank 81 for 1-2 minutes, then is lifted to the centrifugal machine 82 for spin-drying treatment, is lifted to the drying vibration material conveyer 84 for blanking, and the plating piece is dried by the dryer 85 after blanking. The components of the drying station are equipment or devices commonly used in the field of surface treatment, and can be directly purchased in the market (such as products of Fulong environmental protection technology Co., ltd.) or entrusted to equipment manufacturers.

In the specific use process, as shown in fig. 1, a workpiece to be plated is loaded into a roller of a pretreatment station, then is conveyed to a degreasing tank 21 of the pretreatment station by a portal frame 28 with lifting and moving actions, which moves along a track, after degreasing for a certain time, the roller is lifted and moved forward to a first rinsing tank 23 and a second rinsing tank 24 to finish two rinsing steps, then the roller is lifted and moved forward to a pickling tank 25 of the pretreatment station, after pickling for a certain time, the roller is lifted and moved forward to a liquid control tank 27 to park for a certain time, then the roller is lifted and unloaded, the workpiece to be plated enters a hopper 31, the hopper 31 is transversely lifted to the bottom of the lower end of the hopper of a hydraulic feeding device 33 by a transverse travelling crane 32, the hydraulic motor of the hydraulic feeding device 33 is started, the lower end of the hopper of the hydraulic feeding device 33 and the embedded hopper 31 are lifted along an arc track, the upper end of the hopper of the hydraulic feeding device 33 is lowered along the arc track, when the lower end of the bucket groove of the hydraulic feeding device 33 is lifted to a certain height, the discharging opening at the upper end of the bucket groove is just aligned with the barrel opening of the mechanical galvanization barrel 41, at the moment, the universal parts in the bucket 31 move out of the bucket 31 and slide to the upper end of the other end of the bucket groove of the hydraulic feeding device 33 and enter the barrel opening of the mechanical galvanization barrel 41 to complete heavy material feeding, the barrel 41 moves to a designated position along the arc shape of the bottom rail 42 of the galvanization barrel and adjusts the barrel opening angle, the conventional mechanical galvanization process is completed according to the thickness and quality requirements of a to-be-plated part, the rinsing, the copper flash, the base layer, the plating thickening and the polishing are carried out in the barrel, the barrel 41 moves to the designated position along the arc shape of the bottom rail 42 of the galvanization barrel, the universal plated part in the barrel 41 is discharged onto the blanking vibration material conveyer 51 through the barrel opening, under the vibration action of the vibration material conveyer, the front of the universal plated part is fed to the mechanical reciprocating vibration sieve 61 for sieving, the glass beads, the plating solution discharge liquid and a small amount of spray water falling in the screening process fall into the recovery bottom box 71, the plated piece then moves forward and falls into a basket in the hot water tank 81, the basket and the plated piece in the hot water tank 81 stay for 1-2 minutes, the plated piece is lifted to a centrifugal machine 82 for spin-drying treatment, then lifted to a drying vibration conveyor 84 for blanking and conveying the plated piece into a dryer 85 for drying, and finally the plated piece with clean and dry surface is obtained; when the glass beads in the recovery bottom box 71 accumulate to a certain amount, the glass beads and a small amount of water in the recovery bottom box 71 are sent to a storage box 73 arranged above the cylinder 41 through a delivery pump 72, when the glass beads need to be added, a valve and a discharge pipeline of the storage box 73 are opened, and the glass beads can be added into any one of the two plating cylinders through the pipeline; the utility model completes the mechanical galvanization of a batch of general parts by circulation.

Example 2: on the basis of the embodiment 1, the mechanical galvanizing continuous production line for the general parts is provided with two sets of mechanical galvanizing cylinders, two sets of hydraulic feeding devices 33, a plurality of hoppers 31 and a drying basket, and can realize stable and continuous production of the mechanical galvanizing for the general parts under the control of the operation platform 10.

Example 3: a general part mechanical galvanization continuous production line is provided with two sets of mechanical galvanization plating barrels (the loading capacity of a part to be galvanized is 1000 kg/barrel), two sets of hydraulic feeding devices 33, a plurality of hoppers 31 and drying material baskets, an operation platform 10 is provided with 2 operators, a separation station and a drying station are provided with 1 operator, the thickness of a layer to be galvanized is 30 mu m,1 working hour/day is performed, and production operation statistics of workshops indicate that the general part mechanical galvanization continuous production line can achieve stable production yield of 900 tons/month.

It is to be understood that the above-described embodiments of the present utility model are merely illustrative of or explanation of the principles of the present utility model and are in no way limiting of the utility model. Accordingly, any modification, equivalent replacement, improvement, etc. made without departing from the spirit and scope of the present utility model should be included in the scope of the present utility model. Furthermore, the appended claims are intended to cover all such changes and modifications that fall within the scope and boundary of the appended claims, or equivalents of such scope and boundary.

Claims (6)

1. The utility model provides a general class part mechanical galvanization continuous production line which characterized in that includes that connect gradually: the device comprises a pretreatment station, a feeding station, a mechanical galvanization station, a blanking and conveying station, a separation station, a glass bead recovery station and a drying station; wherein:

the pretreatment station comprises a portal frame with lifting and moving actions, at least one degreasing tank (21), at least one rinsing tank (23), at least one pickling tank (25) and at least one liquid control tank (27), wherein the portal frame with lifting and moving actions, which linearly moves along the track, is used for sequentially passing through the degreasing tank (21), the rinsing tank (23), the pickling tank (25), the liquid control tank (27) and entering the feeding station by virtue of the portal frame (28) with lifting and moving actions, which linearly moves along the track;

the feeding station comprises a feeding device,

the mechanical galvanizing station comprises a mechanical galvanizing cylinder, and a discharge opening of the feeding device is in butt joint with a cylinder (41) opening of the mechanical galvanizing cylinder;

the blanking and conveying station comprises a blanking vibration conveyor (51);

the separation station comprises a mechanical reciprocating vibrating screen (61) connected to the tail end of the blanking vibrating conveyor (51);

one end of the mechanical reciprocating vibrating screen (61) is connected with the blanking vibrating conveyor (51), and the other end of the mechanical reciprocating vibrating screen is connected with the drying station;

the glass bead recovery station comprises a recovery bottom box (71) positioned below the mechanical reciprocating vibrating screen (61);

the drying station sequentially comprises a hot water tank (81), a centrifugal machine (82), a drying vibration material conveyer (84), a tunnel net belt type dryer (85), a crane (83) and a material basket, wherein the hot water tank (81), the centrifugal machine (82) and the drying vibration material conveyer (84) are connected to the rear end of the separation station.

2. The continuous production line for mechanical galvanization of general parts according to claim 1, characterized in that said feeding means comprises a hopper (31), a transverse crane (32) and a hydraulic feeding means (33), said feeding means being integrally connected between the rinsing bath and the mechanical galvanization cylinder, said transverse crane (32) being located above said hopper (31), said hopper (31) being connected to said hydraulic feeding means (33).

3. The continuous production line for mechanical galvanization of general parts according to claim 1, wherein the mechanical galvanization cylinder comprises a cylinder body (41) and a cylinder bottom rail (42), the cylinder bottom rail (42) is arc-shaped, and the cylinder body (41) can move along the cylinder bottom rail (42) in an arc-shaped steering way between a feeding device and a blanking vibration feeder (51).

4. The continuous production line for mechanical galvanization of generic parts according to claim 1, characterized in that said glass bead recovery station further comprises a transfer pump (72) positioned inside a recovery bottom tank (71), and a storage tank (73) positioned above the mechanical galvanization station, said transfer pump (72) being connected to the storage tank (73).

5. The continuous production line for mechanical galvanization of general parts according to claim 2, further comprising an operation platform (10), wherein the operation platform (10) is arranged beside the feeding device, the feeding device and the mechanical galvanization cylinder are arranged in two groups, the two feeding devices share one transverse crane (32), and the two hoppers (31) are respectively positioned at two ends of the transverse crane (32) during feeding; the two mechanical galvanization cylinders are respectively arranged on two sides of the blanking vibration feeder (51) and symmetrically distributed.

6. The continuous production line for mechanical galvanization of generic parts according to claim 1, characterized in that said generic parts are bolts, nuts or shims.

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