Coating equipment for surface of angle steel
Technical Field
The invention relates to the field of angle steel, in particular to coating equipment for the surface of angle steel.
Background
The corrosion of steel refers to the process of gradually damaging the steel by contacting with the surrounding medium and reacting (mainly electrochemical reaction). The corrosion rate of the steel is affected by the chemical components of the steel, the metallographic structure, the relative humidity, the temperature, the wind direction, the wind speed, the corrosive medium, the dewing, the dust and other factors of the atmospheric environment. The critical relative humidity for generating rust on the steel is 75%, if the relative humidity is less than 35%, the steel is not easy to rust, and if the relative humidity is more than 80%, the rust speed is obviously accelerated. The temperature rise can accelerate the corrosion speed, and if the relative humidity is more than 75 percent, the corrosion speed can be increased by 2 times when the temperature rises by 10 ℃. The method is characterized in that sulfur dioxide in the air has a catalytic effect on a corrosion process, so that the coating operation needs to be carried out on the outer surface of the angle steel before the angle steel is used, but the coating operation of the angle steel can be completed only by manually carrying out the following steps of derusting, soaking in a reagent, heating and drying, and coating on the surface of the angle steel at present, wherein the weight of the angle steel is larger, and the reagent is corrosive and easily damages an operator.
Disclosure of Invention
The invention aims to provide coating equipment for the surface of angle steel, which aims to solve the problems in the background technology.
The technical scheme of the invention is as follows: the device comprises a material moving device, a derusting device, a feeding device, a plating assisting device and a film coating device, wherein the material moving device, the derusting device, the feeding device, the plating assisting device and the film coating device are arranged at intervals along a straight line direction, one end of the derusting device extends to the position below the material moving device, the other end of the derusting device extends to the position below the feeding device, the plating assisting device and the film coating device are both positioned below the feeding device, the material moving device comprises a material moving frame, a clamping component and a driving component, the driving component is positioned below the material moving frame and is in sliding fit with the material moving frame, the clamping component is mounted on the driving component, the derusting device comprises a soaking component, a derusting component and a clearing component, the soaking component is positioned below a supporting frame and is positioned beside the soaking component, one end of the clearing component is in abutting connection with one end of the derusting component, the other end of the cleaning assembly extends to the lower part of the feeding device, the plating assisting device comprises a plating assisting pool and a plating assisting assembly, the plating assisting assembly is positioned in the plating assisting pool and is fixedly connected with the plating assisting pool, the coating device comprises a support frame and a coating assembly, one end of the support frame extends to the lower part of the feeding device, and the coating assembly is arranged on the support frame.
In a preferred embodiment of the invention, the material moving rack comprises a support plate, a track and four support columns, wherein the four support columns are vertically arranged and arranged in a matrix, the four support columns are all positioned below the support plate, the tops of the four support columns are all fixedly connected with the support plate, the support plate is in a matrix structure and is horizontally arranged, the cross section of the track is in a T shape, the track is positioned below the support plate and is fixedly connected with the support plate, and the driving component is sleeved on the track and is in sliding fit with the track.
In a preferred embodiment of the present invention, the driving assembly includes a sliding block, a driving motor, and a fixing plate, the sliding block is sleeved on the rail, the driving motor is located beside the sliding block and is fixedly connected to the sliding block, an output shaft of the driving motor penetrates through the sliding block and is provided with a driving wheel on the output shaft, the fixing plate has a U-shaped cross section, the top of the fixing plate is fixedly connected to the sliding block, and the clamping assembly is mounted on the fixing plate.
In a preferred embodiment of the invention, the clamping assembly comprises a first clamping member and a second clamping member which have the same structure, the first clamping member and the second clamping member are arranged at intervals, the first clamping member comprises a clamping gas clamp, a first clamping rod and a second clamping rod, the clamping gas clamp is arranged vertically and downwards, the first clamping rod and the second clamping rod are respectively arranged on the clamping gas clamp clamping jaws, the first clamping rod and the second clamping rod are arranged in a staggered manner, one end of the first clamping rod is provided with a fixed shaft, one end of the fixed shaft sequentially penetrates through the first clamping rod and the second clamping rod, the end parts of the fixed shaft are provided with limiting rings, the lower sections of the first clamping rod and the second clamping rod are respectively provided with a clamp block, and the upper sections of the first clamping rod and the second clamping rod are respectively provided with a tensioning spring.
In a preferred embodiment of the invention, the soaking component comprises a soaking pool and two lifting pieces, wherein the two lifting pieces are respectively positioned in the soaking pool and are arranged at intervals, each lifting piece comprises a lifting block, a lifting motor and two lifting rods, the lifting block is vertically arranged, the lifting motor is arranged at the top of the lifting block, the front end of the lifting motor is provided with a lifting shaft, a bearing seat, a transmission gear and two lifting gears, an output shaft of the lifting motor is provided with a driving gear meshed with the transmission gear, the bearing seats are provided with two lifting gears, the two bearing seats are arranged at intervals, two ends of the lifting shaft are respectively inserted into one bearing seat, the two lifting gears are respectively arranged at two ends of the lifting shaft and matched with the lifting rods, the two lifting rods are provided with two corresponding lifting gears, tooth grooves meshed with the lifting gears are respectively arranged on the two lifting rods, and guide rods fixedly connected with the soaking pool are arranged at the bottoms of the two lifting rods, the top of the two lifting rods is provided with a horizontally arranged lifting plate, the lifting plate is fixedly connected with the two lifting rods, and the lifting plate is provided with a plurality of liquid passing holes.
In a preferred embodiment of the invention, the rust removing assembly comprises a workbench, a plurality of unpowered rollers, a polishing frame and a rust removing piece, wherein the polishing frame is arranged on the workbench, a groove for placing the unpowered rollers is formed in the workbench, the unpowered rollers are arranged at intervals along the length direction of the groove, a rotating motor in transmission fit with one unpowered roller is arranged beside the workbench, the polishing frame comprises a horizontally arranged bearing plate and a plurality of supporting rods positioned at the bottom of the bearing plate, the supporting rods are arranged in a matrix manner and are fixedly connected with the bearing plate, and the rust removing piece is arranged on the bearing plate.
In a preferred embodiment of the invention, the rust removing part comprises two guide rollers, four grinding rollers, two conveying rollers and a plurality of grinding sleeves, the plurality of grinding sleeves are arranged on the plurality of unpowered rollers at intervals, the two guide rollers, the two grinding rollers and the two conveying rollers are all arranged on the bearing plate, the two guide rollers are vertically arranged at intervals, the four grinding rollers are vertically arranged and arranged in a matrix manner, the two conveying rollers are vertically arranged, the top parts of the two conveying rollers penetrate through the bearing plate and are provided with conveying gears, the bearing plate is provided with a vertically downward output motor, the output end of the output motor is provided with a driving gear, the driving gear is meshed with the two conveying gears, the front end of the output motor is arranged on the derusting plate, the derusting plate is obliquely arranged, the top of the derusting plate is provided with a pushing motor, and the output end of the pushing motor is fixedly connected with the derusting plate.
In a preferred embodiment of the present invention, the cleaning assembly includes a cleaning pipe, a clean water nozzle and an air blowing nozzle, the cleaning pipe is horizontally disposed, the bottom of the cleaning pipe is provided with a plurality of support legs, the cleaning pipe is provided with a plurality of rotatable rotating shafts, a driving motor in transmission fit with one rotating shaft is disposed beside the cleaning pipe, the driving motor is fixedly connected with the cleaning pipe, the clean water nozzle and the air blowing nozzle are both provided with a plurality of clean water nozzles, the clean water nozzles are all mounted at the front section of the cleaning pipe, and the air blowing nozzle is all mounted at the rear section of the cleaning pipe.
In a preferred embodiment of the present invention, the feeding device and the material transferring device have the same structure, the plating assistant tank is internally provided with a first heating gasket and a second heating gasket, the first heating gasket is located above the second heating gasket, the first heating gasket and the second heating gasket are both attached to the inner wall of the plating assistant tank, a reagent tank is arranged beside the plating assistant tank, the plating assistant tank and the reagent tank are provided with liquid passing pumps for communicating the plating assistant tank and the reagent tank, and the plating assistant assembly and the lifting member have the same structure.
In a preferred embodiment of the present invention, the supporting frame includes a U-shaped positioning plate and a plurality of supporting columns located at the bottom of the positioning plate, the plurality of supporting columns are all fixedly connected to the bottom of the positioning plate, a plurality of positioning shafts are disposed in the positioning plate, the plurality of positioning shafts are all rotatably and fixedly connected to the positioning plate, the coating assembly includes a first baffle vertically disposed, a second baffle and a third baffle horizontally disposed, the first baffle and the second baffle are all fixedly connected to the positioning plate, the third baffle is located at the top of the first baffle and the second baffle and is fixedly connected to the first baffle and the second baffle, and the first baffle, the second baffle, the third baffle and the positioning plate are all provided with a coating nozzle.
Compared with the prior art, the invention provides the coating equipment for the surface of the angle steel by improvement, and the coating equipment has the following improvements and advantages:
(1) the angle steel is clamped and transferred to the lifting piece in the soaking pool through the clamping assembly, the reagent is injected into the soaking pool, the angle steel is immersed in the reagent through the lifting motor after being supported by the two lifting pieces, the angle steel is immersed in the reagent for 5 minutes and then is pushed to a working area of the clamping assembly through the two lifting rods driven by the lifting motor, the angle steel is transferred to the derusting assembly through the driving assembly by the clamping assembly, the derusting assembly removes rust on the angle steel through the clearing assembly after carrying out derusting operation on the surface of the angle steel and keeps the surface of the angle steel dry, and therefore the incomplete film coating caused by the fact that the rust exists on the surface of the angle steel when the film coating is carried out.
(2) When the angle steel with the rust removed is transferred to a working area of the feeding device, the feeding device places the angle steel on the plating assisting component in the plating assisting pool, the plating assisting component is used for driving the angle steel to vertically move downwards and submerging the angle steel in a reagent in the plating assisting pool for 5-10 minutes, then the angle steel is driven to vertically move upwards to a heating area of a first heating gasket, and the first heating gasket heats the angle steel to enable the reagent to be rapidly dried, and the angle steel coated with the reagent is easier to attach during film plating.
(3) The angle steel is placed on the positioning shaft and the positioning shaft drives the angle steel to slide towards the direction of the film coating component, and the film coating component coats the outer surface of the angle steel.
(4) Through the steps, the labor cost is reduced, the potential safety hazard is reduced, and the production efficiency can be improved through automatically plating the angle steel, so that greater benefits are created for users.
Drawings
The invention is further explained below with reference to the figures and examples:
FIG. 1 is a schematic perspective view of the present invention;
FIG. 2 is a schematic view of a partial perspective structure of the material moving device of the present invention;
FIG. 3 is a cross-sectional view of the material transfer device of the present invention;
FIG. 4 is a schematic view of the assembly of the drive assembly and the clamp assembly of the present invention;
FIG. 5 is a schematic perspective view of the infusion assembly of the present invention;
FIG. 6 is a schematic perspective view of the lift of the present invention;
FIG. 7 is a schematic perspective view of the rust removing assembly of the present invention;
FIG. 8 is a schematic perspective view of the table of the present invention;
FIG. 9 is a partial cross-sectional view of the rust removing assembly of the present invention;
FIG. 10 is a schematic perspective view of the clean out assembly of the present invention;
FIG. 11 is a schematic perspective view of the plating assistant apparatus according to the present invention;
FIG. 12 is a cross-sectional view of the plating assist apparatus of the present invention;
FIG. 13 is a schematic perspective view of a coating apparatus according to the present invention;
FIG. 14 is a schematic perspective view of a coating assembly according to the present invention;
description of reference numerals:
the device comprises a material moving device 1, a material moving frame 1a, a supporting plate 1a1, a track 1a1, a supporting column 1a1, a clamping assembly 1b, a first clamping piece 1b1, a second clamping piece 1b1, a first clamping rod 1b1, a second clamping rod 1b1, a fixed shaft 1b1, a spacing ring 1b1, a clamp block 1b1, a tension spring 1b1, a driving assembly 1c, a sliding block 1c1, a driving motor 1c1, a fixed plate 1c1, a driving wheel 1c1, an unpowered rust removal device 2, a soaking assembly 2a, a soaking pool 2a1, a lifting piece 2a1, a raising block 2a1, a lifting motor 2a1, a lifting shaft 2a1, a bearing seat 2a1, a transmission gear 2a1, a lifting gear 2a1, a driving gear 2a1, a guiding rod 2a1, a lifting plate 2a1, a working liquid hole 1, a working platform 1, a working roller 1, a working platform 1, a grinding roller 1, a working platform 1, a grinding motor 1, a1, the device comprises a support rod 2b6, a cleaning assembly 2c, a cleaning pipeline 2c1, a clean water spray head 2c2, a blowing spray head 2c3, a support leg 2c4, a rotating shaft 2c5, a derusting part 2d, a guide roller 2d1, a grinding roller 2d2, a conveying roller 2d3, a grinding sleeve 2d4, a conveying gear 2d5, a driving motor 2c6, an output motor 2d6, a driving gear 2d7, a derusting plate 2d8, a pushing motor 2d9, a feeding device 3, a plating assisting device 4, a plating assisting pool 4a, a first heating gasket 4a1, a second heating gasket 4a2, a reagent pool 4a3, a liquid passing pump 4a3, a plating assisting assembly 4b, a plating device 5, a support frame 5a, a positioning plate 5a3, a support column 5a3, a film positioning shaft 5a3, a first baffle 5b, a second baffle 3, a coating positioning assembly 3, a coating material spray head 3 and a third baffle 365 b.
Detailed Description
The present invention will be described in detail with reference to fig. 1 to 14, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all 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.
The invention provides a coating device for the surface of an angle steel by improvement, as shown in figures 1-14, the coating device comprises a material moving device 1, a derusting device 2, a feeding device 3, a plating assisting device 4 and a coating device 5, wherein the material moving device 1, the derusting device 2, the feeding device 3, the plating assisting device 4 and the coating device 5 are arranged at intervals along a linear direction, one end of the derusting device 2 extends to the lower part of the material moving device 1, the other end of the derusting device 2 extends to the lower part of the feeding device 3, the plating assisting device 4 and the coating device 5 are both positioned below the feeding device 3, the material moving device 1 comprises a material moving frame 1a, a clamping component 1b and a driving component 1c, the driving component 1c is positioned below the material moving frame 1a, the driving component 1c is in sliding fit with the material moving frame 1a, the clamping component 1b is arranged on the driving component 1c, the rust removing device 2 comprises a soaking component 2a, a rust removing component 2b and a clearing component 2c, the soaking component 2a is positioned below a support frame 5a, the rust removing component 2b is positioned at the side of the soaking component 2a, one end of the clearing component 2c is in abutting connection with one end of the rust removing component 2b, the other end of the clearing component 2c extends to the lower part of the feeding device 3, the plating assisting device 4 comprises a plating assisting pool 4a and a plating assisting component 4b, the plating assisting component 4b is positioned in the plating assisting pool 4a and is fixedly connected with the plating assisting pool 4a, the coating device 5 comprises a support frame 5a and a coating component 5b, one end of the support frame 5a extends to the lower part of the feeding device 3, the coating component 5b is arranged on the support frame 5a, the coating device is fixed by an angle iron clamping component and then slides to the working area of the rust removing device 2 on the material moving frame 1a through a driving component 1c, the angle steel is placed in the soaking component 2a, the reagent is used for soaking the angle steel and then moves to the derusting component 2b through the clamping component 1b, the derusting component 2b carries out derusting operation on the outer surface of the angle steel, the head angle steel is conveyed to the working area of the clearing component 2c, the clearing component 2c washes and dries the angle steel, then the angle steel is conveyed to the working area of the feeding device 3 through the rotating shaft 2c5, the feeding device 3 places the angle steel in the plating assisting component 4b, the plating assisting component 4b immerses the angle steel in the plating assisting pool 4a for a period of time, then the plating assisting component 4b conveys the angle steel to the direction of the film coating device 5 through the feeding device 3 after pushing the angle steel out of the plating assisting pool 4a, and the film coating component 5b carries out film coating operation on the angle steel placed on the support frame.
The material moving rack 1a comprises a supporting plate 1a1, a rail 1a2 and four supporting columns 1a3, wherein the four supporting columns 1a3 are vertically arranged, the four supporting columns 1a3 are arranged in a matrix, the four supporting columns 1a3 are all located below a supporting plate 1a1, the tops of the four supporting columns 1a3 are all fixedly connected with the supporting plate 1a1, the supporting plate 1a1 is of a matrix structure, the supporting plate 1a1 is horizontally arranged, the cross section of the rail 1a2 is of a T shape, the rail 1a2 is located below the supporting plate 1a1, the rail 1a2 is fixedly connected with the supporting plate 1a1, the driving assembly 1c is sleeved on the rail 1a2 and is in sliding fit with the rail 1a2, the four supporting columns 1a3 are used for supporting the supporting plate 1a1, the rail 1a2 is mounted on the supporting plate 1a1, and the rail 1a2 is used for supporting the driving assembly 1 c.
The driving assembly 1c comprises a slider 1c1, a driving motor 1c2 and a fixed plate 1c3, the slider 1c1 is sleeved on the track 1a2, the driving motor 1c2 is located beside the slider 1c1, the driving motor 1c2 is fixedly connected with the slider 1c1, an output shaft of the driving motor 1c2 penetrates through the slider 1c1, a driving wheel 1c4 is arranged on the output shaft of the slider, the cross section of the fixed plate 1c3 is U-shaped, the top of the fixed plate 1c3 is fixedly connected with the slider 1c1, the clamping assembly 1b is mounted on the fixed plate 1c3, the driving motor 1c2 drives the slider 1c1 to move along the length direction of the track 1a2 through the driving wheel 1c4, and the slider 1c1 drives the fixed plate 1c3 to move.
The clamping assembly 1b comprises a first clamping piece 1b1 and a second clamping piece 1b2 which are identical in structure, the first clamping piece 1b1 and the second clamping piece 1b2 are arranged at intervals, the first clamping piece 1b1 comprises a clamping air clamp, a first clamping rod 1b4 and a second clamping rod 1b5, the clamping air clamp is arranged vertically downwards, a first clamping rod 1b4 and a second clamping rod 1b5 are respectively arranged on the clamping air clamp jaws, the first clamping rod 1b4 and the second clamping rod 1b5 are arranged in a staggered mode, one end of the first clamping rod 1b4 is provided with a fixed shaft 1b6, one end of the fixed shaft 1b6 sequentially penetrates through the first clamping rod 1b4 and the second clamping rod 1b5 and is provided with a limiting ring 1b7 at the end thereof, the first clamping rod 1b4 and the second clamping rod 1b 5b are provided with a clamping block 6861 b 24, the upper section of the first clamping rod 591 b 599 and the second clamping rod 591 b 599 are provided with a tensioning rod 9, the clamping cylinder rotates the first clamping rod 1b4 and the second clamping rod 1b5 around the fixed shaft 1b6, the first clamping rod 1b4 and the second clamping rod 1b5 clamp the angle steel through the clamp block 1b8, and the tension spring 1b9 on the first clamping rod 1b4 and the second clamping rod 1b5 is used for providing tension force to the first clamping rod 1b4 and the second clamping rod 1b5 to prevent the first clamping rod 1b4 and the second clamping rod 1b5 from being separated from the fixed shaft 1b 6.
The steeping module 2a comprises a steeping cistern 2a1 and two lifting pieces 2a2, wherein the two lifting pieces 2a2 are positioned in the steeping cistern 2a1 at intervals, the lifting piece 2a2 comprises a block 2a3, a lifting motor 2a4 and a lifting rod 2a5, the block 2a3 is vertically arranged, the lifting motor 2a4 is mounted at the top of the block 2a3, the lifting motor 2a4 is provided with a lifting shaft 2a6, a bearing seat 2a7, a transmission gear 2a8 and two lifting gears 2a9 at the front end, the output shaft of the lifting motor 2a9 is provided with a driving gear 2a9 engaged with the transmission gear 2a9, the bearing seats 2a9 are provided with two, the two bearing seats 2a9 are arranged at intervals, two ends of the lifting shaft 2a9 are respectively inserted into one bearing seat 9, the two lifting gears 2a9 are respectively mounted at two ends of the lifting shaft 9 a and are matched with the two lifting rods 9 a9, the two lifting rods 2a5 are respectively provided with a tooth socket meshed with the lifting gear 2a9, the bottoms of the two lifting rods 2a5 are provided with guide rods 2a11 fixedly connected with the soaking pool 2a1, the tops of the two lifting rods 2a5 are provided with a horizontally arranged lifting plate 2a12, the lifting plate 2a12 is fixedly connected with the two lifting rods 2a5, the lifting plate 2a12 is provided with a plurality of liquid passing holes 2a13, the angle steel is placed on the lifting plate 2a12 through the material moving device 1, the driving motor 1c2 drives the driving gear 2a10 to rotate, the driving gear 2a10 is meshed with the driving gear 2a8 to drive the lifting shaft 2a6 to rotate, the lifting shaft 2a6 rotates to drive the two driving gears 2a8 to rotate, the two driving gears 2a8 enable the two lifting rods 2a5 to vertically move to enable the angle steel to be soaked in the reagent, and the lifting motor 2a 4a 5 is vertically moved upwards after the reagent is soaked for a period, the angle steel is pushed out of the steeping cistern 2a1 by the lifting plate 2a 12.
The rust removal assembly 2b comprises a workbench 2b1, a plurality of unpowered rollers 2b2, a grinding frame 2b3 and a rust removal piece 2d, wherein the grinding frame 2b3 is erected on the workbench 2b1, a groove for placing a plurality of unpowered rollers 2b2 is formed in the workbench 2b1, a plurality of unpowered rollers 2b2 are arranged at intervals along the length direction of the groove, a rotating motor 2b4 in transmission fit with one unpowered roller 2b2 is arranged on the side of the workbench 2b1, the grinding frame 2b3 comprises a horizontally arranged bearing plate 2b5 and a plurality of supporting rods 2b6 positioned at the bottom of the bearing plate 2b5, a plurality of supporting rods 2b6 are arranged in a matrix manner, a plurality of supporting rods 2b6 are fixedly connected with a bearing plate 2b5, the rust removal piece 2d is arranged on the bearing plate 2b5, the workbench 2b1 is used for supporting the grinding frame 2b3, and a plurality of unpowered rollers 2b2 are used for supporting steel rollers, the same one side of a plurality of unpowered roller is equipped with the hold-in range, the hold-in range cup joints with all unpowered rollers on, takes a plurality of unpowered roller 2b2 to rotate through rotating electrical machines 2b4, and a plurality of unpowered roller 2b2 is rotatory to drive all a plurality of unpowered roller 2b2 through the hold-in range and rotates, and a plurality of unpowered roller 2b2 is used for making the angle steel remove to rust removal piece 2d work area.
The rust removing piece 2d comprises two guide rollers 2d1, four grinding rollers 2d2, two conveying rollers 2d3 and a plurality of grinding sleeves 2d4, the plurality of grinding sleeves 2d4 are arranged on a plurality of unpowered rollers 2b2 in a spacing manner, the two guide rollers 2d1, the two grinding rollers 2d2 and the two conveying rollers 2d3 are all arranged on a supporting plate 2b5, the two guide rollers 2d1 are vertically arranged at intervals, the four grinding rollers 2d2 are vertically arranged and arranged in a matrix manner, the two conveying rollers 2d3 are vertically arranged, the tops of the two conveying rollers 2d3 are all provided with a conveying gear 2d5 penetrating through the supporting plate 2b5, the supporting plate 2b5 is provided with a vertically downward output motor 2d6, the output end of the output motor 2d6 is provided with a driving gear 2d7, the driving gear 2d7 is meshed with the two conveying gears 5, the front end of the output motor 2d6 is provided with a rust removing plate 2d8, rust cleaning plate 2d8 slope sets up and rust cleaning plate 2d 8's top is equipped with propelling movement motor 2d9, propelling movement motor 2d 9's output and rust cleaning plate 2d8 fixed connection, two guide roll 2d1 are used for leading to the angle steel and make the angle steel remove to on a if unpowered roller 2b2, the angle steel is polished by four grinding roller 2d2, output motor 2d6 makes two output gear rotatory through drive gear 2d7, two output gear rotations drive two conveying roller 2d3 rotations, two conveying roller 2d3 are used for driving the angle steel and carry to cleaing away subassembly 2c work area, the cover of polishing 2d4 that the cover was established on a plurality of unpowered roller 2b2 is used for polishing the operation of polishing the bottom of angle steel, propelling movement motor 2d9 drive plate vertical downstream, the cover on the plate of polishing is polished and is polished.
The cleaning assembly 2c comprises a cleaning pipeline 2c1, clean water spray heads 2c2 and air blowing spray heads 2c3, the cleaning pipeline 2c1 is horizontally arranged, the bottom of the cleaning pipeline 2c1 is provided with a plurality of supporting feet 2c4, a plurality of rotating shafts 2c5 capable of rotating are arranged in the cleaning pipeline 2c1, the side of the cleaning pipeline 2c1 is provided with a driving motor 2c6 matched with the rotating shaft 2c5 in a transmission manner, the driving motor 2c6 is fixedly connected with the cleaning pipeline 2c1, the clean water spray heads 2c2 and the air blowing spray heads 2c3 are respectively provided with a plurality of supporting feet, a plurality of clean water spray heads 2c2 are respectively arranged at the front section of the cleaning pipeline 2c1, a plurality of air blowing spray heads 2c3 are respectively arranged at the rear section of the cleaning pipeline 2c1, after the angle steel enters the cleaning pipeline 2c 469, the driving motor 6862 c6 c5 is driven to rotate to drive the angle steel to convey the angle 5 to a feeding area to the working area of the feeding, the clean water spray head 2c2 cleans the outer surface of the angle steel, and the cleaned angle steel is dried by water stain on the surface of the angle steel through the air blowing spray head 2c 3.
The feeding device 3 and the material moving device 1 have the same structure, a first heating gasket 4a1 and a second heating gasket 4a2 are arranged in the plating assistant pool 4a, the first heating gasket 4a1 is located above the second heating gasket 4a2, the first heating gasket 4a1 and the second heating gasket 4a2 are attached to the inner wall of the plating assistant pool 4a, a reagent pool 4a3 is arranged beside the plating assistant pool 4a, a liquid passing pump 4a4 for communicating the plating assistant pool 4a with the reagent pool 4a3 is arranged on the plating assistant pool 4a, the plating assistant component 4b and the lifting piece 2a2 have the same structure, the second heating gasket 4a2 heats reagents in the plating assistant pool 4a, and the first heating gasket 4a1 is used for drying and heating angle steel and then moves to the support frame 5a through the feeding device 3.
The supporting frame 5a comprises a U-shaped positioning plate 5a1 and a plurality of supporting columns 5a2 positioned at the bottom of a positioning plate 5a1, a plurality of supporting columns 5a2 are all fixedly connected with the bottom of the positioning plate 5a1, a plurality of positioning shafts 5a3 are arranged in the positioning plate 5a1, a plurality of positioning shafts 5a3 are all fixedly connected with the positioning plate 5a1 in a rotatable manner, the coating assembly 5b comprises a first baffle plate 5b1, a second baffle plate 5b2 and a horizontally arranged third baffle plate 5b3 which are vertically arranged, the first baffle plate 5b1 and the second baffle plate 5b2 are all fixedly connected with the positioning plate 5a1, the third baffle plate 5b3 is positioned at the tops of the first baffle plate 5b 469 and the second baffle plate 5b2 and is fixedly connected with the first baffle plate 5b1, the second baffle plate 5b2, the third baffle plate 5b3 and the positioning plate 5a1 are all provided with a coating nozzle 5b4, and a 2a supporting columns 1a, when the angle steel is placed on the positioning plate 5a1, the plurality of positioning shafts 5a3 are used for supporting the angle steel, and the coating nozzles 5b4 arranged on the first baffle 5b1, the second baffle 5b2, the third baffle 5b3 and the positioning plate 5a1 are used for spraying the surface of the angle steel to prevent the surface of the angle steel from rusting.
The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.