CN116445924A - Degreasing processing equipment for electrolytic coloring of aluminum profile and single tin salt - Google Patents

Abstract

The invention relates to the technical field of aluminum profile degreasing, in particular to degreasing processing equipment for electrolytic coloring of single tin salt of aluminum profiles, which comprises a cleaning frame with an upward opening, a turnover mechanism and a wiping mechanism, wherein the turnover mechanism is utilized to drive a groove-shaped aluminum plate to rotate, weak acid solution flows in the rotating process, the weak acid solution fully contacts with the groove-shaped aluminum plate in the flowing process, the impact force generated in the weak acid flowing process is matched with the rotating aluminum groove-shaped aluminum plate, so that external force can be applied to the surface of the groove-shaped aluminum plate, and then the flowing weak acid solution can flush attached impurities, so that oxide films on the surface of the groove-shaped aluminum plate and the attached impurities can be cleaned more thoroughly, the follow-up complexity of cleaning the surface of the groove-shaped aluminum plate is reduced, and the cleaning effect of the surface of the groove-shaped aluminum plate is improved.

Description

Degreasing processing equipment for electrolytic coloring of aluminum profile and single tin salt

Technical Field

The invention relates to the technical field of degreasing processing of aluminum profiles, in particular to degreasing processing equipment for electrolytic coloring of aluminum profiles and single tin salt.

Background

Various greasy dirt such as mineral oil, vegetable oil and the like, impurities on the outer surface of the aluminum profile and naturally formed oxide films are inevitably adhered to the industrial aluminum profile in the processes of processing, storing and the like; the oil stains, impurities and naturally formed oxide film layers generally affect the processing of the surface of the subsequent industrial aluminum profile, so that the industrial aluminum profile is generally subjected to acid cleaning treatment by an acid cleaning degreasing method before being used, so as to ensure the cleanliness of the surface of the industrial aluminum profile.

The existing acid degreasing method is to soak the aluminum profile in an acid solution, withdraw the aluminum profile after a certain time, the acid cleaning mode has better effect on simple aluminum profile, when some groove-type aluminum profiles are subjected to acid cleaning, as protrusions matched with external fittings are arranged in the grooves of the aluminum profile, gaps among the protrusions are smaller, impurities which are subjected to acid cleaning are easy to remain among the protrusions, the acid cleaning effect of the aluminum profile is affected, meanwhile, some greasy dirt which is difficult to clean can be attached to the surface of the aluminum profile, and if the greasy dirt which is difficult to clean is not removed through external force, the acid cleaning time of the aluminum profile can be prolonged, and the acid cleaning effect of the aluminum profile is affected.

In addition, in the current acid degreasing process, the aluminum profile is in a static state in a weak acid solution, and the weak acid solution has slower soaking and cleaning efficiency on the aluminum profile.

Disclosure of Invention

In order to solve the problems, the invention adopts the following technical scheme: the degreasing processing equipment for the aluminum profile electrolytic coloring single tin salt comprises a cleaning frame with an upward opening, wherein a turnover mechanism is arranged in the cleaning frame, and a wiping mechanism is arranged on the turnover mechanism.

The turnover mechanism comprises turnover frames which are symmetrically arranged inside the cleaning frame, wherein the turnover frames are respectively arranged on the left side wall and the right side wall of the cleaning frame in a sliding mode, the wiping mechanisms are jointly installed on the two turnover frames, the lower sides of opposite faces of the turnover frames are provided with rotating shafts through bearings, driving gears are installed on the rotating shafts, one side, far away from the turnover frames, of each rotating shaft is provided with a rotating frame, and one side, far away from the rotating shaft, of each rotating frame is fixedly provided with a plurality of evenly distributed limiting rods along the front-rear direction.

The wiping mechanism comprises wiping frames arranged between the overturning frames, wherein the left end and the right end of the wiping frames are respectively arranged on the overturning frames in a sliding mode, the lower end face of the wiping frames are provided with wiping frames in a sliding mode, the wiping frames are provided with wiping connecting frames which are symmetrical front and back and are in L-shaped structures, and the vertical sections of the wiping connecting frames penetrate through grooves in the wiping frames and are arranged on the wiping frames in a sliding mode.

The cleaning frame is characterized in that one side of the cleaning frame, which is far away from the cleaning frame, is provided with a fixing rod, each fixing rod is provided with a type rod, the left and right vertical sections of the type rod are respectively arranged on the left and right end faces of the corresponding fixing rod, an elastic polishing belt is arranged between the two fixing rods, the front side of the elastic polishing belt is fixed on the front fixing rod, and the rear side of the elastic polishing belt penetrates through the lower end faces of the two type rod horizontal sections and is fixed on the rear fixing rod.

Preferably, the middle part of the lower end surface of the wiping frame is provided with a lifting cylinder through a cylinder seat, the lower end of the telescopic end of the lifting cylinder is provided with an adjusting block, the adjusting block is of an isosceles trapezoid structure, a pressing plate of a T-shaped structure is arranged below the adjusting block, the vertical section of the pressing plate is fixed on the lower end surface of the adjusting block, and two -shaped rod horizontal sections are jointly provided with telescopic rubber plates.

Preferably, two the wiping is provided with the movable plate along the fore-and-aft direction slip by the lower terminal surface of frame horizontal segment even, wipes and is provided with the connection arch by the lower terminal surface of frame horizontal segment even and is located its vertical section downside, installs the reset spring pole jointly between the movable plate of connection arch and homonymy, and the one side that the movable plate kept away from the reset spring pole all installs a plurality of rectangle briquetting in proper order from top to bottom, and movable plate is close to reset spring pole one side and all is provided with the linkage board.

Preferably, the cleaning frame around both sides up end all slide and be provided with the movable block, the movable block left end face is provided with and is used for the spacing connecting rod fixed to the movable block, the driving cylinder is all installed through the cylinder seat to the movable block up end, the inside expansion plate that is provided with the front and back symmetry of cleaning frame, and expansion plate respectively with the driving cylinder telescopic end fixed connection of homonymy, one side that the expansion plate kept away from driving cylinder is provided with the polishing board of L type structure, and the vertical section setting of polishing board is on the expansion plate.

Preferably, the polishing sand paper is arranged on the two surfaces of the internal corner of the polishing plate, the front end surface and the rear end surface of the wiping frame are provided with linkage grooves corresponding to the polishing plate, and the lower end surface of the wiping frame and the linkage grooves are also provided with polishing sand paper which is symmetrical in front and back.

Preferably, the vertical section of board of polishing slide and set up on the expansion plate, the expansion spring pole that extends from top to bottom is installed jointly with the expansion plate of homonymy to the vertical section up end of board of polishing, the one end that the board horizontal segment up end of polishing just kept away from the vertical section of board of polishing is provided with the guide slope.

Preferably, the guide inclined plane on set up the adjustment tank, the higher one side top of adjustment tank height is through hinge mount has the rotor plate, the shorter one side of adjustment tank height is provided with the regulation pole along fore-and-aft direction slip, the regulation pole is located the inside partial cover of adjustment tank and is equipped with the return spring who is used for adjusting the adjustment lever and resets, return spring's both ends respectively with adjust pole and adjustment tank inner wall fixed connection, the inside slope of adjustment tank is provided with the lifter, the lifter lower extreme is located the inside one end of adjustment tank through hinge mount at the regulation pole, the lifter upper end is through hinge mount at the rotor plate lower extreme, the weeping hole has been seted up to the adjustment tank bottom.

Preferably, the front end face of the cleaning frame is provided with a communicating groove communicated with the inside of the cleaning frame, the bottom surface of the inside of the cleaning frame is provided with a impurity removing plate, the front side of the impurity removing plate penetrates through the communicating groove and stretches out of the cleaning frame, the upper end face of the impurity removing plate is provided with a placing groove, activated carbon is filled in the placing groove, a retaining net is clamped above the placing groove, the activated carbon can adsorb impurities generated in the pickling process and oxide film products reacted with weak acid, impurities are reduced to flow in the weak acid solution, the impurities are caused to be reattached to the surface of the groove-type aluminum plate, the retaining net can reduce the random flow of the activated carbon in the weak acid solution in the flowing process, the pollution of the activated carbon to the weak acid solution is reduced, the service time of the weak acid solution is prolonged, when the weak acid solution needs to be replaced after a period of time, the impurity removing plate is taken out from the inside of the communicating groove, the weak acid solution can flow out from the inside the communicating groove, and meanwhile the activated carbon in the placing groove can be replaced.

Preferably, a plurality of arc-shaped bulges are obliquely arranged on the lower end surface of the rubber plate from front to back.

Preferably, type pole constitute by type mobile jib and articulated the extension pole at the two vertical section tip of type mobile jib, the other end of extension pole with link to each other, there is the contained angle between type mobile jib and the extension pole, and the horizontal distance between two type mobile jib from the top down increases gradually, when type pole moves down the in-process, type mobile jib can outwards open, and then can drive elasticity and polish the area and outwards remove, when type pole is apart from the motion, type mobile jib opens this moment, type mobile jib can drive elasticity and polish the area and support two turning of leaning on the inside lower terminal surface of groove type aluminum plate to type mobile jib and elasticity polish the area and play the compensation effect to the arch of below, reduce because of protruding the elasticity that leads to polish area and groove type aluminum plate inner wall laminating untight possibility.

The invention has the beneficial effects that: 1. utilize tilting mechanism to drive the cell type aluminum plate and rotate, make weak acid solution flow in the rotation process, the weak acid solution of flow in-process fully contacts with cell type aluminum plate, the impact force that produces in the weak acid flow in-process and the aluminum cell type aluminum plate in rotation mutually support can apply external force to cell type aluminum plate surface, and then the weak acid solution that flows can wash the processing to the impurity of attaching for cell type aluminum plate surface oxide film and the impurity of attaching wash more thoroughly, reduce follow-up needs carry out the loaded down with trivial details nature of clearance to cell type aluminum plate surface, the cleaning effect on cell type aluminum plate surface has been improved.

2. After the groove-shaped aluminum plate is subjected to rotary pickling, the inner wall and the outer wall of the groove-shaped aluminum plate are cleaned in a reciprocating manner by using polishing sand paper and an elastic polishing belt, so that oil stains on the surface of the groove-shaped aluminum plate are cleaned more cleanly.

Drawings

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

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of the internal perspective structure of the present invention.

Fig. 3 is a schematic perspective view of the wiping mechanism and the turnover mechanism.

Fig. 4 is a schematic perspective view of a part of the structure of the wiping mechanism of the present invention.

Fig. 5 is a schematic perspective view of a wiper frame according to the present invention.

Fig. 6 is a schematic perspective view of the turnover mechanism of the present invention.

Fig. 7 is a left side view of fig. 4 in accordance with the present invention.

Fig. 8 is an enlarged view of a portion of fig. 7 a of the present invention.

Fig. 9 is an enlarged view of a portion of the invention at B of fig. 7.

Fig. 10 is a schematic perspective view of a type pole according to the present invention.

Fig. 11 is a schematic perspective view of a moving block, a driving cylinder and a telescopic plate according to the present invention.

Fig. 12 is an enlarged view of a portion of fig. 11C in accordance with the present invention.

FIG. 13 is a schematic view showing the internal structure of the regulating tank of the present invention.

Fig. 14 is a schematic view of the internal structure of the impurity removing plate of the present invention (seen from left to right).

FIG. 15 is a schematic perspective view (from bottom to top) of a rubber sheet according to the present invention.

Fig. 16 is a schematic perspective view of a trough-type aluminum plate as an object of the present invention.

In the figure: 1. cleaning a frame; 11. a moving block; 12. a limit connecting rod; 13. a driving cylinder; 14. a telescoping plate; 15. polishing the plate; 16. polishing sand paper; 17. a linkage groove; 18. a telescoping spring rod; 19. an adjustment tank; 191. a rotating plate; 192. an adjusting rod; 193. a return spring; 194. a lifting rod; 195. a weeping hole; 101. a impurity removing plate; 102. activated carbon; 103. a shielding net; 2. a turnover mechanism; 21. a turnover frame; 22. a rotating shaft; 23. a drive gear; 24. a rotating frame; 25. a limit rod; 3. a wiping mechanism; 31. a wiping frame; 32. a wiping frame; 321. a lifting cylinder; 322. a pressing plate; 3222. arc-shaped bulges; 323. an adjusting block; 324. a rubber plate; 325. a moving plate; 326. a reset spring lever; 327. rectangular pressing blocks; 328. a linkage plate; 33. wiping the connecting frame; 34. a fixed rod; 35. type rod; 36. an elastic sanding belt; 4. a groove type aluminum plate.

Detailed Description

Embodiments of the invention are described in detail below with reference to the attached drawings, but the invention can be implemented in a number of different ways, which are defined and covered by the claims.

Referring to fig. 1 and 2, a degreasing processing device for electrolytic coloring of aluminum profile single tin salt comprises a cleaning frame 1 with an upward opening, wherein a turnover mechanism 2 is arranged in the cleaning frame 1, and a wiping mechanism 3 is arranged on the turnover mechanism 2.

Referring to fig. 2 and 14, the front end surface of the cleaning frame 1 is provided with a communicating groove communicated with the inside of the cleaning frame 1, the bottom surface of the inside of the cleaning frame 1 is provided with a impurity removing plate 101, the front side of the impurity removing plate 101 passes through the communicating groove and extends out of the cleaning frame 1, the upper end surface of the impurity removing plate 101 is provided with a placing groove, activated carbon 102 is filled in the placing groove, and a retaining net 103 is clamped above the placing groove.

The active carbon 102 can absorb the oxide film product generated by the reaction of impurities and weak acid in the pickling process, reduce the flow of the impurities in the weak acid solution, cause the impurities to be reattached on the surface of the groove-shaped aluminum plate 4, the shielding net 103 can reduce the random flow of the active carbon 102 in the weak acid solution driven by the weak acid solution in the flowing process, reduce the pollution of the active carbon 102 to the weak acid solution, the use time of weak acid solution is prolonged, when the weak acid solution needs to be replaced after a period of use, the impurity removing plate 101 is taken out from the inside of the communicating groove, the weak acid solution can flow out from the inside of the communicating groove, meanwhile, the activated carbon 102 in the placing groove can be replaced, and a sealing gasket is arranged at the connecting part of the impurity removing plate 101 and the communicating groove, so that the weak acid solution is prevented from flowing out from the inside of the communicating groove.

Referring to fig. 6, the turnover mechanism 2 includes turnover frames 21 symmetrically disposed inside the cleaning frame 1, wherein the turnover frames 21 are respectively slidably disposed on left and right sidewalls of the cleaning frame 1, the wiping mechanisms 3 are mounted on the two turnover frames 21 together, a rotation shaft 22 is mounted on opposite sides of the turnover frames 21 through bearings, a driving gear 23 is mounted on the rotation shaft 22, a rotating frame 24 is mounted on one side of the rotation shaft 22 away from the turnover frames 21, and a plurality of uniformly distributed limiting rods 25 are fixed on one side of the rotating frame 24 away from the rotation shaft 22 along the front-rear direction.

When the starting position is reached, the wiping mechanism 3 is not contacted with the overturning frame 21, when the pickling work is carried out, weak acid solution is poured into the cleaning frame 1, the overturning frame 21 is pulled out from the cleaning frame 1, the limiting rod 25 is inserted into the holes on the left side and the right side of the horizontal section of the groove-shaped aluminum plate 4 through manual work, in the actual installation process, the hanging rings are arranged at the upper end of the overturning frame 21, the hanging ends of the existing hoisting machine are hung on the hanging rings, the existing hoisting machine is started to reset the overturning frame 21 to the starting position through the hanging rings, the groove-shaped aluminum plate 4 is synchronously driven to move into the cleaning frame 1 through the mutual matching of the rotating frame 24 and the limiting rod 25 in the resetting process of the overturning frame 21, the groove-shaped aluminum plate 4 is completely immersed in the weak acid solution, the overturning frame 21 is driven by an external motor (not shown in the drawing), the rotating end of the external motor is provided with a connecting gear, the connecting gear is connected with the driving gear 23 through the gear engagement mode, at the moment, the external motor is started to drive the rotating shaft 22 through the gear engagement mode, the rotating shaft 24 and the rotating shaft 25 is mutually matched with the limiting rod 25 to drive the groove-shaped aluminum plate 4, in the rotating process, and the groove-shaped aluminum plate 4 can be clamped by the other clamping fixtures 4 when the two sides of the left side of the groove-shaped aluminum plate 4 can be replaced, and the left side of the groove-shaped aluminum plate 4 can be completely clamped by the clamping the groove-shaped aluminum plate 4, and the left side can be completely replaced, and the left side, and the groove-shaped aluminum can be completely and the left side, and the left side can be cleaned.

The weak acid solution flows in the rotation process of the groove-shaped aluminum plate 4, the weak acid solution fully contacts with the groove-shaped aluminum plate 4 in the flow process, the impact force generated in the weak acid flow process and the rotating groove-shaped aluminum plate 4 are matched with each other to apply external force to the surface of the groove-shaped aluminum plate 4, and then the flowing weak acid solution can flush impurities attached to the surface of the groove-shaped aluminum plate 4, so that oxide films on the surface of the groove-shaped aluminum plate 4 and the attached impurities are thoroughly cleaned, the follow-up complexity of cleaning the surface of the groove-shaped aluminum plate 4 is reduced, and the cleaning effect of the surface of the groove-shaped aluminum plate 4 is improved.

The external motor can be to the self-locking motor of drive gear 23 auto-lock, after groove type aluminum plate 4 rotates and finishes, self-locking motor stop work is through gear engagement mode to axis of rotation 22 locking, avoids follow-up to the groove type aluminum plate 4 clean the in-process of polishing 22 and takes place to rock through rotating frame 24 and gag lever post 25 drive groove type aluminum plate 4, improves the stability of groove type aluminum plate 4.

Referring to fig. 3, the wiping mechanism 3 includes a wiping frame 31 disposed between the turning frames 21, wherein the left and right ends of the wiping frame 31 are respectively slidably disposed on the turning frames 21, a wiping frame 32 is slidably disposed on the lower end surface of the wiping frame 31, a wiping connecting frame 33 with a symmetrical front and back and L-shaped structure is disposed on the wiping frame 32, and a vertical section of the wiping connecting frame 33 passes through a groove on the wiping frame 32 and is slidably disposed on the wiping frame 32.

Referring to fig. 4, a fixed rod 34 is disposed on a side of the horizontal segment of the wiping connecting frame 33, which is far away from the wiping frame 31, each fixed rod 34 is provided with a rod 35, left and right vertical segments of the rod 35 are respectively mounted on left and right end faces of the corresponding fixed rod 34, an elastic polishing belt 36 is disposed between the two fixed rods 34, the front side of the elastic polishing belt 36 is fixed on the front fixed rod 34, and the rear side of the elastic polishing belt 36 passes through the lower end faces of the horizontal segments of the two rods 35 and is fixed on the rear fixed rod 34.

When the starting position is reached, the wiping mechanism 3 is positioned above the position between the overturning frames 21, after the groove-shaped aluminum plate 4 is overturned, an external air cylinder (not shown in the figure) is arranged on the cleaning frame 1, the telescopic end of the external air cylinder is connected with the wiping frame 31, the external air cylinder is started to drive the wiping frame 31 to move downwards, the wiping frame 32 is used for driving the wiping connecting frame 33 to move downwards in the downward moving process of the wiping frame 31, the elastic polishing belt 36 horizontally abuts against the upper end face of the horizontal section of the groove-shaped aluminum plate 4 through the mutual matching of the fixing rod 34 and the type rod 35 in the downward moving process of the wiping connecting frame 33, the middle part of the upper end face of the wiping frame 31 is provided with an external bidirectional air cylinder (not shown in the figure), the front and rear telescopic ends of the external bidirectional air cylinder are respectively fixedly connected with the vertical sections of the front and rear wiping connecting frames 33, at the moment, the external bidirectional air cylinder is started to drive the wiping connecting frames 33 to be mutually far away, the fixed rod 34 and the type rod 35 are mutually matched to drive the elastic polishing belt 36 to stretch, the fixed rod 34 and the type rod 35 are mutually matched to drive the vertical section of the elastic polishing belt 36 to be abutted against the inner side wall of the groove-shaped aluminum plate 4, an electric sliding block (not shown in the figure) is arranged on the lower end face of the wiping frame 31, the electric sliding block is fixedly connected with the wiping frame 32, the electric sliding block is started to drive the wiping frame 32 to reciprocate left and right, the wiping frame 32 drives the fixed rod 34 to move through the wiping connecting frame 33 in the reciprocating movement process, the fixed rod 34 is mutually matched with the type rod 35 to drive the elastic polishing belt 36 to wipe and polish the inner wall of the groove-shaped aluminum plate 4, so that an oxide film and impurities on the inner wall of the groove-shaped aluminum plate 4 are separated, the contact area of the groove-shaped aluminum plate 4 and the weak acid solution is improved, the reaction rate of the weak acid solution and the oxide film on the surface of the groove-shaped aluminum plate 4 is accelerated, the pickling efficiency of the groove-shaped aluminum plate 4 is improved.

Referring to fig. 4, the middle part of the lower end surface of the wiping frame 32 is provided with a lifting cylinder 321 through a cylinder seat, the lower end of the telescopic end of the lifting cylinder 321 is provided with an adjusting block 323, the adjusting block 323 is in an isosceles trapezoid structure, the lower part of the adjusting block 323 is provided with a pressing plate 322 in a T-shaped structure, the vertical section of the pressing plate 322 is fixed on the lower end surface of the adjusting block 323, and the horizontal sections of the two rods 35 are jointly provided with a telescopic rubber plate 324.

Referring to fig. 4, 7 and 8, two lower end surfaces of the horizontal section of the wiping connecting frame 33 are provided with moving plates 325 in a sliding manner along the front-back direction, connecting protrusions are provided on the lower end surfaces of the horizontal section of the wiping connecting frame 33 and on the lower side of the vertical section of the wiping connecting frame, a restoring spring rod 326 is jointly mounted between the connecting protrusions and the moving plates 325 on the same side, a plurality of rectangular pressing blocks 327 are uniformly mounted on one side, away from the restoring spring rod 326, of the moving plates 325 from top to bottom in sequence, and a linkage plate 328 is provided on one side, close to the restoring spring rod 326, of the moving plates 325.

Because there is the arch on the inside front and back lateral wall of groove type aluminum plate 4, in order to improve groove type aluminum plate 4 inner wall and bellied effect of polishing, in the aforesaid cleans the polishing process, clean and link 33 in-process and drive link plate 328 synchronous motion, on the vertical section removal groove type aluminum plate 4 lateral wall of elasticity polishing area 36, two link plates 328 synchronous motion around this moment arrives the below on two inclined planes around the regulating block 323, start lift cylinder 321 and drive regulating block 323 and move down, regulating block 323 moves down in-process and drives clamp plate 322 and move down, clamp plate 322 moves down in-process and drives rubber plate 324 and move down and make rubber plate 324 drive elasticity polishing area 36 horizontal segment tightly lean on groove type aluminum plate 4 inside bottom surface, improve the effect of polishing of elasticity polishing area 36 horizontal segment to groove type aluminum plate 4 inside bottom surface.

Referring to fig. 7 and 15, a plurality of arc protrusions 3222 are obliquely arranged on the lower end surface of the rubber plate 324 from front to back, the arc protrusions 3222 are obliquely arranged to further increase the compression degree of the rubber plate 324 on the horizontal section of the elastic polishing belt 36, reduce the contact dead angle between the elastic polishing belt 36 and the inner bottom surface of the groove-shaped aluminum plate 4, and further improve the wiping and polishing effect of the elastic polishing belt 36 on the inner bottom surface of the groove-shaped aluminum plate 4.

The adjusting block 323 moves down the in-process and drives two linkage plates 328 to move away from each other through two inclined planes, the linkage plates 328 move the in-process and drive the movable plate 325 to move synchronously, at this time, the reset spring rod 326 is stretched, the movable plate 325 moves the rectangular pressing block 327 and moves between the bulges, the elastic polishing belt 36 is moved to the surface of the bulges in the moving process of the rectangular pressing block 327, the contact area between the elastic polishing belt 36 and the inner wall of the bulges and the groove-shaped aluminum plate 4 is increased, the dead angle of the vertical section of the elastic polishing belt 36 in the wiping and polishing process is reduced, so that the rectangular pressing block 327 and the elastic polishing belt 36 are matched with each other to further carry out the laminating and polishing treatment on the inner wall of the groove-shaped aluminum plate 4, the wiping and polishing effect of the elastic polishing belt 36 on the inner wall of the groove-shaped aluminum plate 4 is improved, further the cleaning effect of the groove-shaped aluminum plate 4 is improved, and after the wiping and polishing is finished, the adjusting block 323 resets upwards, the reset spring rod 326 and the movable plate 325 are matched with each other to drive the rectangular pressing block 327 to reset.

Referring to fig. 10, the type rod 35 is composed of a type main rod and extension rods hinged at two vertical section ends of the type main rod, the other ends of the extension rods are connected with the fixing rods 34, an included angle exists between the type main rod and the extension rods, the horizontal distance between the two type main rods is gradually increased from top to bottom, when the type rod 35 moves downwards, the type main rod can be outwards opened, and then the elastic polishing belt 36 can be driven to outwards move, when the type rod 35 moves away from each other, the type main rod is opened at the moment, the type main rod can drive the elastic polishing belt 36 to abut against two corners of the inner lower end face of the groove type aluminum plate 4, so that the type main rod and the elastic polishing belt 36 play a role in compensating for the lowest protrusions, and the possibility that the elastic polishing belt 36 is not tightly attached to the inner wall of the groove type aluminum plate 4 due to the protrusions is reduced.

Referring to fig. 2 and 11, the upper end surfaces of the front side and the rear side of the cleaning frame 1 are both provided with a moving block 11 in a sliding manner, the left end surface of the moving block 11 is provided with a limiting connecting rod 12 for fixing the moving block 11, the upper end surface of the moving block 11 is provided with a driving air cylinder 13 through an air cylinder seat, the cleaning frame 1 is internally provided with telescopic plates 14 which are symmetrical front and rear, the telescopic plates 14 are respectively fixedly connected with the telescopic ends of the driving air cylinders 13 on the same side, one side, far away from the driving air cylinder 13, of the telescopic plates 14 is provided with a polishing plate 15 in an L-shaped structure, and the vertical section of the polishing plate 15 is arranged on the telescopic plates 14.

Referring to fig. 5 and 11, the two inner corners of the polishing plate 15 are provided with polishing sand paper 16, the front and rear end surfaces of the wiping frame 32 are provided with linkage grooves 17 corresponding to the polishing plate 15, and the lower end surface of the wiping frame 32 is provided with polishing sand paper 16 which is symmetrical in front and rear and is positioned between the linkage grooves 17.

Referring to fig. 11, the vertical section of the polishing plate 15 is slidably disposed on the expansion plate 14, the expansion spring rod 18 extending up and down is mounted on the upper end surface of the vertical section of the polishing plate 15 and the expansion plate 14 on the same side, and a guiding inclined surface is disposed on one end of the upper end surface of the horizontal section of the polishing plate 15, which is far away from the vertical section of the polishing plate 15.

During specific work, before wiping mechanism 3 cleans and polishes to groove type aluminum plate 4, start front and back two drive cylinders 13 drive through expansion plate 14 and polish board 15 and remove in opposite directions, when the relative face of polishing board 15 horizontal segment moves to on the groove type aluminum plate 4 lateral wall, this moment polish board 15 continues to remove, groove type aluminum plate 4 extrusion guide slope downwardly moving in the process of polishing board 15 continues to remove, expansion spring bar 18 is stretched at this moment, polish board 15 continues to remove, when polishing board 15 vertical segment and groove type aluminum plate 4 support the back, at this moment polishing board 15 horizontal segment supports each other, polish board 15 stops removing, at this moment polish board 15 vertical segment upper end and move to the linkage recess 17 inside, wherein polish board 15 is through guide slope and expansion spring bar 18 cooperation assurance polishing board 15 horizontal segment all the time with groove type aluminum plate 4 horizontal segment down the terminal surface and paste mutually, thereby make polish sand paper 16 closely laminate with groove type aluminum plate 4, improve the effect of polishing on the follow-up sand paper 16 to the surface of groove type aluminum plate 4, wherein polish 16 on polishing board 4 horizontal segment down the terminal surface and wipe, polish board 16 and support the terminal surface under the groove type aluminum plate 4, polish board 32 support the vertical segment upper end face of polishing board 16 supports the expansion spring bar 18, when polishing board is reset, polish board 14 is polished on the vertical segment of the upper segment, and returns to the back side of the groove type aluminum plate 4.

Referring to fig. 13, the guiding inclined plane is provided with an adjusting groove 19, a rotating plate 191 is mounted above one side of the adjusting groove 19 with higher height through a hinge, an adjusting rod 192 is slidably arranged on one side of the adjusting groove 19 with lower height along the front-rear direction, a return spring 193 for resetting the adjusting rod 192 is sleeved on the part of the adjusting rod 192 inside the adjusting groove 19, two ends of the return spring 193 are fixedly connected with the adjusting rod 192 and the inner wall of the adjusting groove 19 respectively, a lifting rod 194 is obliquely arranged inside the adjusting groove 19, the lower end of the lifting rod 194 is mounted at one end of the adjusting rod 192 inside the adjusting groove 19 through a hinge, the upper end of the lifting rod 194 is mounted on the lower end face of the rotating plate 191 through a hinge, and a liquid leakage hole 195 is formed in the bottom of the adjusting groove 19.

Because the guiding inclined plane is set up, the upper end face of the horizontal section of the polishing plate 15 can not be completely in direct contact with the lower end face of the horizontal section of the groove-shaped aluminum plate 4, so that the synchronous jacking adjusting rod 192 moves away from each other in the relative movement process of the horizontal section of the polishing plate 15, the return spring 193 stretches in the movement process of the adjusting rod 192, the angle between the adjusting rod 192 and the lifting rod 194 is reduced, the adjusting rod 192 synchronously drives the rotating plate 191 to rotate around the hinge on the side wall of the adjusting groove 19, when the rotating plate 191 drives the polishing sand paper 16 to be abutted against the lower end face of the horizontal section of the groove-shaped aluminum plate 4, the adjusting rod 192 completely enters the adjusting groove 19, so that the rotating plate 191 and the polishing sand paper 16 are mutually matched to improve the attaching area of the polishing sand paper 16 and the horizontal section of the groove-shaped aluminum plate 4, the situation that the polishing sand paper 16 is not tightly attached to the lower end face of the horizontal section of the groove-shaped aluminum plate 4 due to the setting of the guiding inclined plane is reduced, the limit connecting rod 12 is taken out, the polishing sand paper 16 is synchronously driven in the movement process of the frame 32 to wipe the outer side wall of the groove-shaped aluminum plate 4 through the polishing sand paper 16.

After the pickling is wiped and polished, the overturning cleaning step is repeated, so that the groove-shaped aluminum plate 4 is overturned and pickled again, the acid solution is guaranteed to carry out secondary pickling on impurities and oxide films on the surface of the wiped and polished groove-shaped aluminum plate 4, the cleaning effect of the surface of the groove-shaped aluminum plate 4 is improved, when the secondary pickling is finished, the wiping mechanism 3 is restored to the starting position, the driving cylinder 13 drives the expansion plate 14 to be restored to the starting position at the moment, the immersed weak acid solution in the regulating groove 19 can leak out from the liquid leakage hole 195, the groove-shaped aluminum plate 4 is taken out by the conventional lifting machine through the overturning frame 21 and the limiting rod 25, the limiting rod 25 is taken out from the groove-shaped aluminum plate 4 by moving the overturning frame 21 left and right, and the pickling work is completed.

Referring to fig. 16, in the process of pickling the groove-shaped aluminum plate 4 by adopting the degreasing processing equipment for electrolytic coloring of the aluminum profile and for single tin salt, the degreasing processing equipment comprises the following steps: the first step, installation and placement: pouring weak acid solution into the cleaning frame 1 before the pickling work, extracting the overturning frame 21 from the cleaning frame 1, manually inserting the limiting rods 25 into holes on the left side and the right side of the horizontal section of the groove-shaped aluminum plate 4, starting the existing lifting machine to reset the overturning frame 21 to the starting position, and synchronously driving the groove-shaped aluminum plate 4 to move into the cleaning frame 1 through the mutual matching of the rotating frame 24 and the limiting rods 25 in the resetting process of the overturning frame 21 so that the groove-shaped aluminum plate 4 is completely immersed in the weak acid solution.

Step two, overturning and pickling: the external motor is started to drive the rotating shaft 22 to rotate in a gear meshing mode, the rotating shaft 22 is mutually matched with the limiting rod 25 through the rotating frame 24 in the rotating process to drive the groove-shaped aluminum plate 4 to rotate, the weak acid solution flows in the rotating process of the groove-shaped aluminum plate 4, and the weak acid solution fully contacts with the groove-shaped aluminum plate 4 in the flowing process.

Thirdly, wiping and polishing: the external cylinder is started to drive the wiping frame 31 to move downwards, the wiping frame 32 drives the wiping connecting frame 33 to move downwards in the downward moving process of the wiping frame 31, the horizontal section of the elastic grinding belt 36 is attached to the upper end surface of the horizontal section of the groove-shaped aluminum plate 4 through the mutual matching of the fixed rod 34 and the type rod 35 in the downward moving process of the wiping connecting frame 33, the external bidirectional cylinder is started to drive the wiping connecting frame 33 to move away from each other, the fixed rod 34 and the type rod 35 mutually match to drive the elastic grinding belt 36 to stretch, and the horizontal section of the fixed rod 34 and the type rod 35 mutually match to drive the vertical section of the elastic grinding belt 36 to be attached to the inner side wall of the groove-shaped aluminum plate 4; the front driving cylinder 13 and the rear driving cylinder 13 are started to drive the polishing plates 15 to move in opposite directions through the telescopic plates 14, when the horizontal sections of the polishing plates 15 are abutted against each other, the polishing plates 15 stop moving, at the moment, the upper ends of the vertical sections of the polishing plates 15 move into the linkage grooves 17, and the polishing sand paper 16 is tightly attached to the groove-shaped aluminum plates 4; the electric sliding block is started to drive the wiping frame 32 to reciprocate left and right, the wiping frame 32 drives the fixed rod 34 to move through the wiping connecting frame 33 in the reciprocating movement process, the fixed rod 34 is matched with the rod 35 in the moving process to drive the elastic polishing belt 36 to wipe and polish the inner wall of the groove-shaped aluminum plate 4, and meanwhile, the wiping frame 32 drives the polishing plate 15 to synchronously move to wipe and polish the outer wall of the groove-shaped aluminum plate 4.

Fourth, taking out the plate: after the wiping and polishing are finished, the overturning cleaning step is repeated, so that the groove-shaped aluminum plate 4 is overturned and pickled again, the acid solution is guaranteed to carry out secondary pickling on impurities and oxide films on the surface of the wiped and polished groove-shaped aluminum plate 4, after the secondary pickling is finished, the wiping mechanism 3 is restored to the starting position, the driving cylinder 13 drives the expansion plate 14 to restore to the starting position, the groove-shaped aluminum plate 4 is taken out by using the conventional crane through the overturning frame 21 and the limiting rod 25, and the overturning frame 21 is moved left and right to enable the limiting rod 25 to be taken out from the groove-shaped aluminum plate 4.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. Degreasing processing equipment for electrolytic coloring of aluminum profile single tin salt comprises a cleaning frame (1) with an upward opening, and is characterized in that: the cleaning frame (1) is internally provided with a turnover mechanism (2) for turning over the groove-shaped aluminum plate (4), and the turnover mechanism (2) is provided with a wiping mechanism (3), wherein the wiping mechanism is arranged on the turnover mechanism;

the turnover mechanism (2) comprises turnover frames (21) which are symmetrically arranged left and right in the cleaning frame (1), wherein the turnover frames (21) are respectively arranged on the left side wall and the right side wall of the cleaning frame (1) in a sliding mode, the two turnover frames (21) are jointly provided with a wiping mechanism (3), the lower sides of opposite faces of the turnover frames (21) are provided with rotating shafts (22) through bearings, the rotating shafts (22) are provided with driving gears (23), one side, far away from the turnover frames (21), of each rotating shaft (22) is provided with a rotating frame (24), and one side, far away from the rotating shaft (22), of each rotating frame (24) is fixedly provided with a plurality of uniformly distributed limiting rods (25) along the front-rear direction;

the wiping mechanism (3) comprises wiping frames (31) arranged between the overturning frames (21), wherein the left end and the right end of each wiping frame (31) are respectively arranged on the overturning frames (21) in a sliding way, the lower end face of each wiping frame (31) is provided with a wiping frame (32), the wiping frames (32) are provided with wiping connecting frames (33) which are symmetrical in front-back and are in L-shaped structures, and the vertical sections of the wiping connecting frames (33) penetrate through grooves in the wiping frames (32) and are arranged on the wiping frames (32) in a sliding way;

the cleaning frame is characterized in that a fixing rod (34) is arranged on one side, far away from the cleaning frame (31), of the horizontal section of the cleaning frame (33), type rods (35) are arranged on each fixing rod (34), the left and right vertical sections of the type rods (35) are respectively arranged on the left and right end faces of the corresponding fixing rods (34), elastic polishing belts (36) are arranged between the two fixing rods (34), the front sides of the elastic polishing belts (36) are fixed on the front fixing rods (34), and the rear sides of the elastic polishing belts (36) penetrate through the lower end faces of the horizontal sections of the two type rods (35) and are fixed on the rear fixing rods (34).

2. The degreasing processing apparatus for electrolytic coloring of aluminum profile mono-tin salt according to claim 1, wherein: the middle part of the lower end face of the wiping frame (32) is provided with a lifting cylinder (321) through a cylinder seat, the lower end of the telescopic end of the lifting cylinder (321) is provided with an adjusting block (323), the adjusting block (323) is of an isosceles trapezoid structure, the lower part of the adjusting block (323) is provided with a pressing plate (322) of a T-shaped structure, the vertical section of the pressing plate (322) is fixed on the lower end face of the adjusting block (323), and the horizontal sections of the two type rods (35) are provided with telescopic rubber plates (324) together.

3. The degreasing processing apparatus for electrolytic coloring of aluminum profile mono-tin salt according to claim 1, wherein: two the wiping is provided with movable plate (325) along the fore-and-aft direction slip by the terminal surface under the horizontal segment of frame (33), and wiping is provided with the connection protrusion by the terminal surface under the horizontal segment of frame (33) and is located its vertical section downside, installs reset spring pole (326) jointly between connection protrusion and the movable plate (325) of homonymy, and a plurality of rectangle briquetting (327) are all evenly installed in proper order to one side that reset spring pole (326) was kept away from to movable plate (325), and movable plate (325) is close to reset spring pole (326) one side and all is provided with linkage board (328).

4. The degreasing processing apparatus for electrolytic coloring of aluminum profile mono-tin salt according to claim 1, wherein: the cleaning frame is characterized in that the upper end faces of the front side and the rear side of the cleaning frame (1) are both provided with moving blocks (11) in a sliding mode, the left end face of each moving block (11) is provided with a limiting connecting rod (12) for fixing the moving block (11), the upper end faces of the moving blocks (11) are all provided with driving air cylinders (13) through air cylinder seats, telescopic plates (14) which are symmetrical front and rear are arranged inside the cleaning frame (1), the telescopic plates (14) are fixedly connected with the telescopic ends of the driving air cylinders (13) on the same side respectively, one side, far away from the driving air cylinders (13), of each telescopic plate (14) is provided with a polishing plate (15) with an L-shaped structure, and the vertical sections of the polishing plates (15) are arranged on the telescopic plates (14).

5. The degreasing processing apparatus for electrolytic coloring of aluminum profile mono-tin salt according to claim 4, wherein: the polishing sand paper (16) is arranged on two surfaces of the internal corner of the polishing plate (15), the linkage grooves (17) corresponding to the polishing plate (15) are formed in the front end surface and the rear end surface of the wiping frame (32), and the polishing sand paper (16) which is symmetrical in front and rear and is positioned between the linkage grooves (17) is arranged on the lower end surface of the wiping frame (32).

6. The degreasing processing apparatus for electrolytic coloring of aluminum profile mono-tin salt according to claim 4, wherein: the vertical section of board (15) of polishing slide and set up on expansion plate (14), the expansion spring pole (18) that extends from top to bottom is installed jointly with expansion plate (14) of homonymy to the vertical section up end of board (15) of polishing, and the one end that just keeps away from the vertical section of board (15) of polishing is provided with the direction inclined plane.

7. The degreasing processing apparatus for electrolytic coloring of aluminum profile mono-tin salt as in claim 6, wherein: the guide inclined plane on set up adjustment tank (19), the higher one side top of adjustment tank (19) has through hinge mount rolling plate (191), the shorter one side of adjustment tank (19) is provided with regulation pole (192) along fore-and-aft direction slip, part cover that regulation pole (192) are located inside adjustment tank (19) is equipped with return spring (193) that are used for adjusting pole (192) and reset, return spring (193) both ends respectively with adjust pole (192) and adjustment tank (19) inner wall fixed connection, the inside slope of adjustment tank (19) is provided with lifter (194), lifter (194) lower extreme is located the inside one end of adjustment tank (19) through hinge mount in regulation pole (192), lifter (194) upper end is through hinge mount at rolling plate (191) lower terminal surface, weeping hole (195) has been seted up to adjustment tank (19) bottom.

8. The degreasing processing apparatus for electrolytic coloring of aluminum profile mono-tin salt according to claim 1, wherein: the cleaning frame is characterized in that a communicating groove communicated with the inside of the cleaning frame is formed in the front end face of the cleaning frame (1), a impurity removing plate (101) is arranged on the bottom surface of the inside of the cleaning frame (1), the front side of the impurity removing plate (101) penetrates through the communicating groove and stretches out of the cleaning frame (1), a placing groove is formed in the upper end face of the impurity removing plate (101), activated carbon (102) is filled in the placing groove, and a blocking and protecting net (103) is clamped above the placing groove.

9. The degreasing processing apparatus for electrolytic coloring of aluminum profile mono-tin salt according to claim 2, wherein: the lower end face of the rubber plate (324) is provided with a plurality of arc-shaped bulges (3222) which are obliquely arranged from front to back.

10. The degreasing processing apparatus for electrolytic coloring of aluminum profile mono-tin salt according to claim 1, wherein: the type rod (35) consists of a type main rod and extension rods hinged to the ends of two vertical sections of the type main rod, the other ends of the extension rods are connected with the fixed rods (34), an included angle exists between the type main rod and the extension rods, and the horizontal distance between the two type main rods is gradually increased from top to bottom.