CN113426604B - Aluminum alloy spraying processing structure - Google Patents

Abstract

The application provides an aluminum alloy spraying processing structure, include: a platen, the center of the bottom of which is provided with a clamping control component; the clamping execution assembly is arranged in the middle of the surface of the bedplate, and is connected with the clamping control assembly, and the clamping execution assembly clamps two ends of the aluminum alloy section bar; a longitudinal moving assembly mounted on the rear side of the surface of the platen; the transverse moving assembly is arranged on one side of the longitudinal moving assembly, which is far away from the aluminum alloy section bar; the spraying head is towards the control assembly, and is installed on the sideslip subassembly, and installs the spraying head on the spraying head towards the control assembly, the coating import connection of spraying head is connected with the one end of hose. The aluminum alloy profile spraying device has the advantages that different sides of the aluminum alloy profile can be sprayed quickly, the spraying efficiency is high, the direction of the spraying head can be adjusted up and down, the grooves on the sides of the aluminum alloy profile can be sprayed, the spraying is comprehensive, the thickness of a sprayed coating is uniform, and the spraying effect is good.

Description

Aluminum alloy spraying processing structure

Technical Field

The application relates to the technical field of aluminum alloy processing equipment, in particular to an aluminum alloy spraying processing structure.

Background

Currently, aluminum alloys are the most widely used type of metallic structural materials in industry, and have been used in a large number in the aerospace, automotive, mechanical manufacturing, marine and chemical industries. At present, in the processing process of aluminum alloy, the surface of the aluminum alloy is often required to be subjected to spray coating treatment so as to produce and prepare an aluminum alloy machined part meeting the requirements, which is an important link in the surface manufacturing process.

The spraying device used at present generally sprays the aluminum alloy on one side surface and then sprays the next side surface, the other side surfaces are easy to be sprayed with the spraying paint when different side surfaces are sprayed, uneven coating thickness is caused, grooves on the side surfaces of the aluminum alloy section bar are sometimes not sprayed, and the spraying effect is poor.

Disclosure of Invention

The application provides an aluminum alloy spraying processing structure, can be quick carry out the spraying to the different sides of aluminum alloy section bar, spraying efficiency is high, and can carry out the upper and lower adjustment to the orientation of spraying head to can spray the slot of aluminum alloy section bar side, the coating thickness of spraying is even, and the spraying is effectual, in order to improve above-mentioned problem.

The invention is specifically as follows: an aluminum alloy spray processing structure comprising:

a platen, the center of the bottom of which is provided with a clamping control component;

the clamping execution assembly is arranged in the middle of the surface of the bedplate, and is connected with the clamping control assembly, and the clamping execution assembly clamps two ends of the aluminum alloy section bar;

a longitudinal moving assembly mounted on the rear side of the surface of the platen;

the transverse moving assembly is arranged on one side of the longitudinal moving assembly, which is far away from the aluminum alloy section bar;

the spraying head is towards the control assembly, and is installed on the sideslip subassembly, and installs the spraying head on the spraying head towards the control assembly, the coating import connection of spraying head is connected with the one end of hose.

The platen is used as the base of processing equipment, the centre gripping control subassembly is used for controlling the centre gripping to carry out the subassembly and carry out the centre gripping to the both ends of aluminium alloy ex-trusions, thereby fix the aluminium alloy ex-trusions, it can be with sideslip subassembly back-and-forth movement to indulge the subassembly, thereby the convenience changes the distance of spraying head orientation control subassembly and aluminium alloy ex-trusions as required, the orientation of spraying head orientation control subassembly can control the orientation of spraying head, can conveniently spray the slot corner of aluminium alloy ex-trusions side after changing the orientation, improve the comprehensiveness of spraying, coupling hose passes through the spraying liquid pump and is connected with outside coating bucket, the spraying liquid pump is with coating pump to the even spraying of spraying head.

Further, the clamping control assembly comprises an installation vertical plate, a first bearing, a transverse shaft, a control motor, a transverse bevel gear, a vertical bevel gear, a second bearing and a control shaft, wherein the center of the bottom of the bedplate is connected with the vertical control shaft through the second bearing in a rotating mode, the bottom of the control shaft is connected with the vertical bevel gear, the installation vertical plate is further fixed at the bottom of the bedplate, the transverse shaft is connected to the installation vertical plate through the rotation of the bearing in a rotating mode, one end of the transverse shaft is fixedly connected with the transverse bevel gear which is meshed with the vertical bevel gear, the other end of the transverse shaft is connected with an output shaft of the control motor, and the control motor is fixed to the side face of the installation vertical plate. The installation vertical plate is used for installing a transverse shaft and a control motor, the control motor drives the vertical bevel gear to rotate through the transverse shaft in operation, and the control shaft is driven to rotate relative to the bedplate through the transverse bevel gear due to the meshing effect.

Further, the centre gripping execution subassembly includes slide rail, rack, gear, centre gripping support, solid fixed ring, fixed column and grip block, the surface of platen is equipped with two horizontal slide rails that are parallel to each other, and the inboard of two slide rails is two racks of sliding connection respectively, the top of control axle is connected with the gear, the front and back side of gear is connected with two racks meshing respectively, and two centre gripping supports are connected respectively to the one end connection that two racks kept away from each other, and the top of two centre gripping supports is fixed with two corresponding fixed columns about through solid fixed ring, and the grip block is installed respectively to the one end that two fixed columns are relative. The rotation of the control shaft can drive the two racks to move opposite or opposite relative to the sliding rail, so that the two clamping brackets are close to or far away from each other, the clamping discs are controlled to be close to or far away from each other through the fixing rings and the fixing columns, the two clamping discs are close to each other to clamp the aluminum alloy section, or the two clamping discs are far away from each other, and the aluminum alloy section is loosened.

Further, indulge and move the subassembly and include forked tail spout, forked tail draw runner, support column, stiffener, indulge and move board, connecting rod, electrohydraulic push rod and fixed block, the surface rear side of platen is equipped with two fore-and-aft forked tail spouts, sliding connection has the forked tail draw runner in the forked tail spout, the bottom of two support columns of middle part fixed connection support column respectively, the top fixed connection of two support columns indulges the bottom of moving the board, and the front and back end of forked tail draw runner is connected the bottom of indulging the board through the stiffener of slope respectively, the bottom of indulging the board of moving is fixed with the connecting rod, the surface rear end middle part of platen passes through the one end of the vertical electrohydraulic push rod of fixed block fixed connection, the bottom of connecting rod is connected to the other end of electrohydraulic push rod.

The electro-hydraulic push rod works to extend, the longitudinal moving plate can be pushed to be close to the aluminum alloy section bar through the connecting rod, the electro-hydraulic push rod is shortened, the longitudinal moving plate can be pulled to be far away from the aluminum alloy section bar, the cooperation of the dovetail sliding groove and the dovetail sliding strip can enable the longitudinal moving plate to move forward and backward more stably, and the reinforcing rod can strengthen the connection strength of the dovetail sliding strip and the longitudinal moving plate.

Further, the sideslip subassembly includes sideslip motor, curb plate, horizontal slide bar, horizontal screw rod and sideslip piece, the one side both ends that the aluminum alloy section bar was kept away from to the board of indulging are fixed with the curb plate respectively, rotate between two curb plates and have horizontal screw rod, and be fixed with horizontal slide bar between two curb plates, the output shaft of sideslip motor is connected to the one end of horizontal screw rod, the sideslip motor is fixed in one of them curb plate outside, screw and horizontal screw rod threaded connection of sideslip piece side, and the slide hole and the sideslip pole sliding connection of sideslip piece side.

The transverse moving motor works to drive the transverse screw rod to rotate, and the transverse moving block can be driven to move relative to the transverse sliding rod due to the threaded action of the transverse screw rod and the transverse moving block, so that the transverse movement of the spraying head on the transverse moving block towards the control assembly is realized.

Further, the spraying head is towards control assembly including curved bar, motor cabinet, towards control motor, cam, gyro wheel, axis of rotation, lantern ring, control lever, spring, support, bearing are three and towards the axle, the top fixed connection curved bar's of sideslip piece bottom, the top of curved bar is buckled to the direction of aluminum alloy section bar, the top side of curved bar passes through three rotations of bearing and connects towards the one end of axle, the other end fixed connection lantern ring towards the axle, the lantern ring internal grafting has the spraying head, the one end of spring is connected to the upper and lower end of lantern ring respectively fixed connection two control levers, and the one end of spring is kept away from to one side of aluminum alloy section bar on the control lever top of upside, the other end of spring is fixed on the curved bar through the support, and the control lever bottom of downside is connected with the gyro wheel through the axis of rotation, the side of curved bar is fixed with towards control motor through the motor cabinet, the output shaft connection cam towards control motor, cam and gyro wheel roll connection.

The cam can be driven to rotate towards the work of the control motor, and because the cam and the roller are in rolling contact, the control rod on the lower side can be pushed to be close to the aluminum alloy section bar when the protruding portion of the cam is in contact with the side face of the roller, the control rod on the upper side is matched with the bracket to compress the spring, the spraying head is inclined upwards through the direction shaft and the lantern ring, the protruding portion of the cam is separated from contact with the side face of the roller, the small-diameter portion of the cam is contacted with the side face of the roller, the spring rebounds, the control rod on the upper side is pushed to the direction of the aluminum alloy section bar, the spraying head is inclined downwards, the direction of the spraying head can be changed, and therefore effective spraying and comprehensive spraying can be carried out on the corners of the grooves on the side face of the aluminum alloy section bar.

Further, still include vertical shielding assembly, vertical shielding assembly includes shielding frame, side logical groove, wave cardboard, sideslip post and side nut, the side that moves the board and is close to the aluminum alloy section bar is fixed with horizontal shielding frame indulges, the side logical groove has been seted up respectively to shielding frame's both sides, and the inside upside and the downside of shielding frame are two wave cardboard's of fixed connection tip respectively, and the sideslip post is connected respectively on the wave cardboard bottom of upside and the wave cardboard top of downside, the both ends of sideslip post pass side logical groove and threaded connection side nut respectively.

The wave cardboard can stretch out and draw the sideslip post to slide in the side logical inslot to make the distance between two sideslips change, then fix the position of sideslip post through the side nut, thereby can change the vertical region of spraying, can change the width of the vertical region of spraying according to the width of aluminum alloy section bar, other sides that the coating splashes to aluminum alloy section bar when avoiding the spraying avoid coating thickness to be different, improve the spraying effect.

Further, still include horizontal shielding component, horizontal shielding component includes ejector pin, rectangular channel, horizontal sliding block, connecting strip, erects shielding plate, top and leads to groove, screw thread post and top nut, the top of shielding the frame is fixed with horizontal ejector pin, rectangular channel has been seted up to one side that the aluminum alloy section bar was kept away from to the ejector pin, the horizontal sliding block of sliding connection respectively in the rectangular channel both sides, the side of horizontal sliding block is connected with erects shielding plate through the connecting strip, the top of ejector pin has been seted up the top of intercommunication rectangular channel and has been led to the groove, the top of horizontal sliding block is equipped with the screw thread post that passes the top and leads to the groove, the top threaded connection of screw thread post has a top nut. The vertical shielding plate can be driven to transversely move through the connecting strip by adjusting the positions of the two transverse sliding blocks in the rectangular groove, so that the left and right length of a spraying area is adjusted, then the positions of the transverse sliding blocks are fixed through the threaded column and the top nut, and the left and right length of a vertical area of spraying can be changed according to the left and right length of the aluminum alloy section.

Further, still include the upset unit, the upset unit includes upset motor, driving gear, driven gear, pivot and turning bearing, and the middle part of two fixed columns is connected with the pivot through the turning bearing rotation, and the centre gripping dish is connected respectively to the tip that two pivots are relative, and the driven gear is connected to the tip of one of them pivot, the upset motor is connected to the top side of centre gripping support, the output shaft of upset motor has the driving gear of being connected with driven gear meshing. The turnover motor works to drive the driving gear to rotate, and the driven gear in meshed connection drives the turnover shaft to rotate, so that the aluminum alloy section can be driven to rotate due to the fact that the two clamping discs are clamped at the two ends of the aluminum alloy section, and different sides of the aluminum alloy section can be sprayed.

Further, still include the centre gripping buffering subassembly, the centre gripping buffering subassembly includes mounting groove, telescopic link, buffer spring, buffer board and buffer hemisphere, and the mounting groove has been seted up to the one end that the pivot was kept away from to two grip blocks, be connected with the buffer board with mounting groove sliding connection through the telescopic link in the mounting groove, buffer spring has been cup jointed to the side of telescopic link, buffer hemisphere is installed in the outside of buffer board. The buffer hemisphere is made of rubber, friction force with the aluminum alloy section is improved, and the buffer spring can enable the clamping disc to have a buffer effect when being in contact with the aluminum alloy section, so that the aluminum alloy section is prevented from being damaged due to overlarge clamping force.

The beneficial effects of the invention are as follows:

1. the bedplate is used as a base of processing equipment, the clamping control assembly is used for controlling the clamping execution assembly to clamp the two ends of the aluminum alloy section bar so as to fix the aluminum alloy section bar, and the longitudinal moving assembly can move the transverse moving assembly back and forth, so that the distance between the spraying head orientation control assembly and the aluminum alloy section bar can be changed conveniently as required;

2. the spray head orientation control component can control the orientation of the spray head, can conveniently spray the groove corners on the side surfaces of the aluminum alloy section after changing the orientation, improves the overall degree of spraying, and the connecting hose is connected with an external paint barrel through a spray liquid pump which atomizes and sprays paint to the spray head, so that the aluminum alloy section is uniformly sprayed;

3. the aluminum alloy profile spraying device has the advantages that different sides of the aluminum alloy profile can be sprayed quickly, the spraying efficiency is high, the direction of the spraying head can be adjusted up and down, the grooves on the sides of the aluminum alloy profile can be sprayed, the thickness of a sprayed coating is uniform, and the spraying effect is good.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered limiting the scope, and that other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of an aluminum alloy spraying structure provided by the application;

fig. 2 is a schematic rear view of an aluminum alloy spraying structure provided in the present application;

FIG. 3 is a schematic view of a part of the structure of the aluminum alloy spraying structure in FIG. 2;

FIG. 4 is a schematic rear-view side structure of an aluminum alloy spraying structure provided by the application;

FIG. 5 is a schematic view of a part of the structure of the part B in FIG. 4 of the structure of the aluminum alloy spraying structure;

FIG. 6 is a schematic view of the bottom structure of an aluminum alloy spray processing structure provided by the present application;

fig. 7 is a schematic cross-sectional structure diagram of a clamping buffer assembly of an aluminum alloy spraying processing structure provided by the application.

Icon: 1 platen, 2 clamping control assembly, 21 mounting riser, 22 bearing one, 23 horizontal shaft, 24 control motor, 25 horizontal bevel gear, 26 vertical bevel gear, 27 bearing two, 28 control shaft, 3 clamping execution assembly, 31 slide rail, 32 rack, 33 gear, 34 clamping bracket, 35 fixed ring, 36 fixed column, 37 clamping disk, 4 turnover unit, 41 turnover motor, 42 driving gear, 43 driven gear, 44 turnover shaft, 45 turnover bearing, 5 clamping buffer assembly, 51 mounting groove, 52 telescopic rod, 53 buffer spring, 54 buffer plate, 55 buffer hemisphere, 6 longitudinal moving assembly, 61 dovetail chute, 62 dovetail slide bar, 63 support column, 64 reinforcing rod, 65 longitudinal moving plate, 66 connecting rod, 67 electrohydraulic push rod, 68 fixed block, 7 traverse assembly, 71 traverse motor 72 side plates, 73 horizontal sliding bars, 74 horizontal screw rods, 75 horizontal sliding blocks, 8 spray head orientation control components, 81 bent bars, 82 motor bases, 83 orientation control motors, 84 cams, 85 rollers, 86 rotating shafts, 87 lantern rings, 88 control bars, 89 springs, 810 supports, 811 three bearings, 812 orientation shafts, 9 vertical shielding components, 91 shielding frames, 92 side through grooves, 93 corrugated paper boards, 94 horizontal sliding columns, 95 side nuts, 10 horizontal shielding components, 101 ejector rods, 102 rectangular grooves, 103 horizontal sliding blocks, 104 connecting strips, 105 vertical shielding plates, 106 top through grooves, 107 threaded columns, 108 top nuts, 11 coating bearing components, 111 bearing support rods, 112 bearing plates, 113 bearing arc plates, 12 supporting legs, 13 aluminum alloy sections, 14 spray heads and 15 connecting hoses.

Detailed Description

For the purposes of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, which are generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present application, as provided in the accompanying drawings, is not intended to limit the scope of the application, as claimed, but is merely representative of selected embodiments of the application. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

It should be noted that, in the case of no conflict, the embodiments and features in the embodiments may be combined with each other.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

In the description of the embodiments of the present application, it should be noted that, the indicated orientation or positional relationship is based on the orientation or positional relationship shown in the drawings, or the orientation or positional relationship that is conventionally put when the product of the application is used, or the orientation or positional relationship that is conventionally understood by those skilled in the art, or the orientation or positional relationship that is conventionally put when the product of the application is used, which is merely for convenience of describing the application and simplifying the description, and is not indicative or implying that the device or element to be referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the application. Furthermore, the terms "first," "second," "third," and the like are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

In the description of the embodiments of the present application, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed," "mounted," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; may be directly connected or indirectly connected through an intermediate medium. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art in a specific context.

Referring to fig. 1-2 and fig. 4-6, the present embodiment provides a technical solution: an aluminum alloy spray processing structure comprising:

a platen 1, the center of the bottom of which is provided with a clamping control assembly 2; four corners of the bottom of the bedplate 1 are supported by supporting legs 12;

the clamping executing assembly 3 is arranged in the middle of the surface of the bedplate 1, the clamping executing assembly 3 is connected with the clamping control assembly 2, and the clamping executing assembly 3 clamps two ends of the aluminum alloy section bar 13;

the clamping control assembly 2 comprises a mounting vertical plate 21, a first bearing 22, a transverse shaft 23, a control motor 24, a transverse bevel gear 25, a vertical bevel gear 26, a second bearing 27 and a control shaft 28, wherein the vertical control shaft 28 is rotatably connected to the bottom center of the bedplate 1 through the second bearing 27, the vertical bevel gear 26 is connected to the bottom end of the control shaft 28, the mounting vertical plate 21 is fixedly arranged at the bottom of the bedplate 1, the transverse shaft 23 is rotatably connected to the mounting vertical plate 21 through the first bearing 22, one end of the transverse shaft 23 is fixedly connected with the transverse bevel gear 25 which is meshed with the vertical bevel gear 26, the other end of the transverse shaft 23 is connected with an output shaft of the control motor 24, and the control motor 24 is fixedly arranged on the side surface of the mounting vertical plate 21. The installation vertical plate 21 is used for installing a transverse shaft 23 and a control motor 24, the control motor 24 works to drive a vertical bevel gear 26 to rotate through the transverse shaft 23, and a control shaft 28 is driven to rotate relative to the bedplate 1 through a transverse bevel gear 25 due to the meshing effect.

The clamping executing assembly 3 comprises a sliding rail 31, a rack 32, a gear 33, clamping brackets 34, a fixing ring 35, fixing columns 36 and clamping discs 37, wherein two mutually parallel transverse sliding rails 31 are arranged on the surface of the bedplate 1, two racks 32 are respectively connected to the inner sides of the two sliding rails 31 in a sliding manner, the top end of a control shaft 28 is connected with the gear 33, the front side and the rear side of the gear 33 are respectively connected with the two racks 32 in a meshed manner, one ends, far away from each other, of the two racks 32 are respectively connected with the two clamping brackets 34, the tops of the two clamping brackets 34 are fixedly provided with two left and right corresponding fixing columns 36 through the fixing ring 35, and the clamping discs 37 are respectively arranged at the opposite ends of the two fixing columns 36. The rotation of the control shaft 28 can drive the two racks 32 to move towards or away from each other relative to the sliding rail 31, so that the two clamping brackets 34 are close to or away from each other, the clamping discs 37 are controlled to be close to or away from each other through the fixing rings 35 and the fixing columns 36, and the two clamping discs 37 are close to each other to clamp the aluminum alloy section 13, or the two clamping discs 37 are away from each other to release the aluminum alloy section 13.

A vertical movement assembly 6 mounted on the rear side of the surface of the platen 1;

the longitudinal moving assembly 6 comprises a dovetail sliding groove 61, dovetail sliding strips 62, supporting columns 63, reinforcing rods 64, longitudinal moving plates 65, connecting rods 66, electro-hydraulic push rods 67 and fixing blocks 68, wherein two longitudinal dovetail sliding grooves 61 are formed in the rear side of the surface of the bedplate 1, the dovetail sliding strips 62 are connected in a sliding mode in the dovetail sliding grooves 61, the middle parts of the two dovetail sliding strips 62 are fixedly connected with the bottom ends of the supporting columns 63 respectively, the top ends of the two supporting columns 63 are fixedly connected with the bottoms of the longitudinal moving plates 65, the front ends and the rear ends of the dovetail sliding strips 62 are connected with the bottoms of the longitudinal moving plates 65 respectively through the inclined reinforcing rods 64, connecting rods 66 are fixed at the bottom of the longitudinal moving plates 65, one end of each longitudinal electro-hydraulic push rod 67 is fixedly connected with the middle part of the rear end of the surface of the bedplate 1 through the fixing block 68, and the other end of each electro-hydraulic push rod 67 is connected with the bottom end of the connecting rod 66.

The electro-hydraulic push rod 67 works to extend, the longitudinal moving plate 65 can be pushed to be close to the aluminum alloy section 13 through the connecting rod 66, the electro-hydraulic push rod 67 shortens, the longitudinal moving plate 65 can be pulled to be far away from the aluminum alloy section 13, the cooperation of the dovetail sliding groove 61 and the dovetail sliding strip 62 can enable the longitudinal moving plate 65 to move forwards and backwards more stably, and the reinforcing rod 64 can strengthen the connection strength of the dovetail sliding strip 62 and the longitudinal moving plate 65.

A traversing assembly 7 mounted on the side of the longitudinal moving assembly 6 away from the aluminum alloy section bar 13;

the traversing assembly 7 comprises a traversing motor 71, side plates 72, traversing bars 73, traversing screw rods 74 and traversing blocks 75, wherein the side plates 72 are respectively fixed at two ends of one side of the longitudinal moving plate 65 far away from the aluminum alloy section 13, the traversing screw rods 74 rotate between the two side plates 72, the traversing bars 73 are fixed between the two side plates 72, one end of each traversing screw rod 74 is connected with an output shaft of the traversing motor 71, the traversing motor 71 is fixed at the outer side of one side plate 72, screw holes on the side surface of each traversing block 75 are in threaded connection with the traversing screw rods 74, and sliding holes on the side surface of each traversing block 75 are in sliding connection with the traversing bars 73.

The transverse moving motor 71 works to drive the transverse screw 74 to rotate, and the transverse moving block 75 can be driven to move relative to the transverse sliding rod 73 due to the threaded action of the transverse screw 74 and the transverse moving block 75, so that the transverse movement of the spraying head on the transverse moving block 75 towards the control assembly 8 is realized.

The spray head faces the control component 8, is installed on the transverse moving component 7, and the spray head 14 is installed on the spray head face control component 8, and a paint inlet of the spray head 14 is connected with one end of the connecting hose 15.

The spray head orientation control assembly 8 comprises a bent rod 81, a motor seat 82, an orientation control motor 83, a cam 84, a roller 85, a rotating shaft 86, a lantern ring 87, a control rod 88, a spring 89, a bracket 810, a bearing III 811 and an orientation shaft 812, wherein the top of the transverse moving block 75 is fixedly connected with the bottom end of the bent rod 81, the top end of the bent rod 81 is bent towards the direction of the aluminum alloy section 13, the side surface of the top end of the bent rod 81 is rotationally connected with one end of the orientation shaft 812 through the bearing III 811, the other end of the orientation shaft 812 is fixedly connected with the lantern ring 87, the spray head 14 is sleeved in the lantern ring 87, the upper end and the lower end of the lantern ring 87 are respectively fixedly connected with one ends of the two control rods 88, the top end of the control rod 88 on the upper side is far away from one side of the aluminum alloy section 13, the other end of the spring 89 is fixed on the bent rod 81 through the bracket 810, the bottom end of the control rod 88 on the lower side is rotationally connected with the roller 85 through the rotating shaft 86, the side surface of the bent rod 81 is fixedly connected with the orientation control motor 83 through the motor seat 82, the output shaft of the orientation control motor 83 is connected with the cam 84, and the roller 84 is in rolling connection with the roller 85.

The cam 84 can be driven to rotate by working towards the control motor 83, and as the cam 84 and the roller 85 are in rolling contact, when the convex part of the cam 84 is contacted with the side surface of the roller 85, the lower control rod 88 can be pushed to approach the aluminum alloy section 13, at the moment, the upper control rod 88 is matched with the bracket 810 to compress the spring 89, at the moment, the spraying head 14 is inclined upwards by facing the shaft 812 and the collar 87, when the convex part of the cam 84 is separated from contact with the side surface of the roller 85, the small-diameter part of the cam 84 is contacted with the side surface of the roller 85, at the moment, the spring 89 rebounds to push the upper control rod 88 towards the direction of the aluminum alloy section 13, at the moment, the spraying head 14 is inclined downwards, the direction of the spraying head 14 can be changed, and therefore, the groove corners of the side surface of the aluminum alloy section 13 can be effectively sprayed, and the spraying is comprehensive.

The platen 1 is used as the base of processing equipment, the centre gripping control assembly 2 is used for controlling centre gripping to carry out the subassembly 3 to the both ends of aluminium alloy ex-trusions 13 to fix aluminium alloy ex-trusions 13, indulge and move subassembly 6 and can move sideslip subassembly 7 back and forth, thereby the distance of convenient change spraying head orientation control assembly 8 and aluminium alloy ex-trusions 13 as required, the orientation of spraying head 14 can be controlled to spraying head orientation control assembly 8, change the orientation and can conveniently spray the slot corner of aluminium alloy ex-trusions 13 side, improve the comprehensive degree of spraying, coupling hose 15 passes through the spraying liquid pump and is connected with outside coating bucket, the spraying liquid pump is with coating pump to spraying head 14 atomizing blowout, the even spraying of aluminium alloy ex-trusions 13.

In a second embodiment, referring to fig. 2-3, the present embodiment provides a technical solution: the aluminum alloy spraying processing structure is the same as the above embodiment except that:

still include vertical shielding component 9, vertical shielding component 9 includes shielding frame 91, side logical groove 92, wave cardboard 93, cross slide 94 and side nut 95, the side that moves board 65 is close to aluminum alloy section bar 13 is fixed with horizontal shielding frame 91 indulges, side logical groove 92 has been seted up respectively to shielding frame 91's both sides, and shielding frame 91's inside upside and downside are two wave cardboard 93's tip of fixed connection respectively, wave cardboard 93 bottom of upside and wave cardboard 93 top of downside connect cross slide 94 respectively, cross slide 94's both ends pass side logical groove 92 respectively and threaded connection side nut 95.

The corrugated cardboard 93 can stretch out and draw the cross slide column 94 to slide in the side through groove 92 to make the distance between two cross slide columns 94 change, then fix the position of cross slide column 94 through the side nut 95, thereby can change the vertical region of spraying, can change the width of the vertical region of spraying according to the width of aluminum alloy section bar 13, other sides that the coating splashes to aluminum alloy section bar 13 when avoiding the spraying avoid coating thickness to be different, improve the spraying effect.

Still including horizontal shielding component 10, horizontal shielding component 10 includes ejector pin 101, rectangular channel 102, horizontal sliding block 103, connecting strip 104, vertical shielding plate 105, roof through groove 106, screw thread post 107 and top nut 108, the top of shielding frame 91 is fixed with horizontal ejector pin 101, rectangular channel 102 has been seted up to one side that the ejector pin 101 kept away from aluminum alloy section bar 13, both sides sliding connection horizontal sliding block 103 respectively in the rectangular channel 102, the side of horizontal sliding block 103 is connected with vertical shielding plate 105 through connecting strip 104, roof through groove 106 of intercommunication rectangular channel 102 has been seted up at the top of ejector pin 101, the top of horizontal sliding block 103 is equipped with the screw thread post 107 that passes roof through groove 106, the top threaded connection of screw thread post 107 has top nut 108. The vertical shielding plate 105 can be driven to transversely move through the connecting strip 104 by adjusting the positions of the two transverse sliding blocks 103 in the rectangular groove 102, so that the left and right length of a spraying area is adjusted, then the positions of the transverse sliding blocks 103 are fixed through the threaded column 107 and the top nut 108, and the left and right length of the vertical area of spraying can be changed according to the left and right length of the aluminum alloy section 13.

In a third embodiment, referring to fig. 1, the present embodiment provides a technical solution: the aluminum alloy spraying processing structure is the same as the above embodiment except that:

the turnover unit 4 comprises a turnover motor 41, a driving gear 42, a driven gear 43, a turnover shaft 44 and a turnover bearing 45, wherein the middle parts of the two fixed columns 36 are rotatably connected with the turnover shaft 44 through the turnover bearing 45, opposite end parts of the two turnover shafts 44 are respectively connected with the clamping disc 37, one end part of one turnover shaft 44 is connected with the driven gear 43, the side surface of the top of the clamping support 34 is connected with the turnover motor 41, and an output shaft of the turnover motor 41 is connected with the driving gear 42 in meshed connection with the driven gear 43. The turning motor 41 works to drive the driving gear 42 to rotate, and the driven gear 43 in meshed connection drives the turning shaft 44 to rotate, so that the two clamping discs 37 clamp the two ends of the aluminum alloy section 13, and the aluminum alloy section 13 can be driven to rotate, so that different sides of the aluminum alloy section 13 can be sprayed.

In a fourth embodiment, referring to fig. 7, the present embodiment provides a technical solution: the aluminum alloy spraying processing structure is the same as the above embodiment except that:

still include centre gripping buffer assembly 5, centre gripping buffer assembly 5 includes mounting groove 51, telescopic link 52, buffer spring 53, buffer board 54 and buffering hemisphere 55, and mounting groove 51 has been seted up to the one end that the trip shaft 44 was kept away from to two grip blocks 37, is connected with the buffer board 54 with mounting groove 51 sliding connection through telescopic link 52 in the mounting groove 51, and buffer spring 53 has been cup jointed to the side of telescopic link 52, and buffering hemisphere 55 is installed in the outside of buffer board 54. The buffer hemisphere 55 is made of rubber, friction force with the aluminum alloy section 13 is improved, and the buffer spring 53 can enable the clamping disc 37 to have a buffer effect when being in contact with the aluminum alloy section 13, so that the aluminum alloy section 13 is prevented from being damaged due to overlarge clamping force.

In a fifth embodiment, referring to fig. 7, the present embodiment provides a technical solution: the aluminum alloy spraying processing structure is the same as the above embodiment except that:

still include coating and accept subassembly 11, coating is accepted subassembly 11 and is contained accepting branch 111, accept dull and stereotyped 112 and accept arc 113, the downside of aluminum alloy section bar 13 is equipped with and accepts arc 113, accept the front end of arc 113 and connect horizontal and accept dull and stereotyped 112, it fixes the surface at platen 1 through accepting branch 111 to accept the bottom of flat board 112, the coating that falls down can fall on accepting arc 113, avoid falling to the centre gripping and carry out the subassembly 3 and influence the use, can put in advance and accept on flat board 112 before putting into centre gripping and carry out the subassembly 3 with the aluminum alloy section bar 13 that waits to spray, improve the use convenience.

It should be noted that, in the above embodiment, the input ends of the control motor 24, the electro-hydraulic push rod 67, the facing control motor 83 and the turning motor 41 are all electrically connected with the output end of the external power source through a PLC controller, and the control motor 24, the facing control motor 83 and the turning motor 41 all adopt servo motors, and the PLC controller controls the control motor 24, the electro-hydraulic push rod 67, the facing control motor 83 and the turning motor 41 to work by methods commonly used in the prior art.

The foregoing is merely a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and variations may be made to the present application by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principles of the present application should be included in the protection scope of the present application.

Claims (4)

1. An aluminum alloy spray processing structure, comprising:

a platen (1) with a clamping control component (2) at the center of the bottom;

the clamping execution assembly (3) is arranged in the middle of the surface of the bedplate (1), the clamping execution assembly (3) is connected with the clamping control assembly (2), and the clamping execution assembly (3) clamps two ends of the aluminum alloy profile (13);

a vertical movement assembly (6) which is installed on the rear side of the surface of the bedplate (1);

the transverse moving assembly (7) is arranged on one side, far away from the aluminum alloy section bar (13), of the longitudinal moving assembly (6);

the spraying head facing control assembly (8) is arranged on the transverse moving assembly (7), the spraying head facing control assembly (8) is provided with a spraying head (14), and a coating inlet of the spraying head (14) is connected with one end of a connecting hose (15);

the automatic overturning device is characterized by further comprising an overturning unit (4), wherein the overturning unit (4) comprises an overturning motor (41), a driving gear (42), a driven gear (43), overturning shafts (44) and overturning bearings (45), the middle parts of fixed columns (36) of the two clamping execution assemblies (3) are rotatably connected with the overturning shafts (44) through the overturning bearings (45), opposite ends of the two overturning shafts (44) are respectively connected with a clamping disc (37) of the clamping execution assembly (3), one end part of one overturning shaft (44) is connected with the driven gear (43), the side face of the top of a clamping support (34) of the clamping execution assembly (3) is connected with the overturning motor (41), and an output shaft of the overturning motor (41) is connected with the driving gear (42) in a meshed connection with the driven gear (43);

the coating material collecting device comprises a table plate (1), and is characterized by further comprising a coating material collecting assembly (11), wherein the coating material collecting assembly (11) comprises a collecting support rod (111), a collecting flat plate (112) and a collecting arc plate (113), the collecting arc plate (113) is arranged on the lower side of the aluminum alloy section bar (13), the front end of the collecting arc plate (113) is connected with the horizontal collecting flat plate (112), and the bottom of the collecting flat plate (112) is fixed on the surface of the table plate (1) through the collecting support rod (111);

the clamping control assembly (2) comprises an installation vertical plate (21), a first bearing (22), a transverse shaft (23), a control motor (24), a transverse bevel gear (25), a vertical bevel gear (26), a second bearing (27) and a control shaft (28), wherein the vertical control shaft (28) is rotatably connected to the bottom center of the bedplate (1) through the second bearing (27), the vertical bevel gear (26) is connected to the bottom end of the control shaft (28), the installation vertical plate (21) is fixedly arranged at the bottom of the bedplate (1), the transverse shaft (23) is rotatably connected to the installation vertical plate (21) through the first bearing (22), one end of the transverse shaft (23) is fixedly connected with the transverse bevel gear (25) which is in meshed connection with the vertical bevel gear (26), the other end of the transverse shaft (23) is connected with the output shaft of the control motor (24), and the control motor (24) is fixedly arranged on the side surface of the installation vertical plate (21).

The clamping execution assembly (3) comprises a sliding rail (31), racks (32), gears (33), clamping supports (34), fixing rings (35), fixing columns (36) and clamping discs (37), wherein two mutually parallel transverse sliding rails (31) are arranged on the surface of the bedplate (1), two racks (32) are respectively and slidably connected to the inner sides of the two sliding rails (31), the top end of a control shaft (28) is connected with the gears (33), the front side and the rear side of each gear (33) are respectively connected with the two racks (32) in a meshed mode, one ends, far away from each other, of the two racks (32) are respectively connected with the two clamping supports (34), two left and right corresponding fixing columns (36) are fixed at the tops of the two clamping supports (34) through the fixing rings (35), and the clamping discs (37) are respectively arranged at one ends, opposite to the two fixing columns (36);

the vertical moving assembly (6) comprises a dovetail sliding groove (61), dovetail sliding strips (62), supporting columns (63), reinforcing rods (64), vertical moving plates (65), connecting rods (66), electro-hydraulic push rods (67) and fixed blocks (68), two vertical dovetail sliding grooves (61) are formed in the rear side of the surface of the bedplate (1), the dovetail sliding strips (62) are connected in a sliding mode in the dovetail sliding grooves (61), the middle parts of the two dovetail sliding strips (62) are fixedly connected with the bottom ends of the supporting columns (63) respectively, the top ends of the two supporting columns (63) are fixedly connected with the bottom of the vertical moving plates (65), the front end and the rear end of each dovetail sliding strip (62) are connected with the bottom of the corresponding vertical moving plate (65) through inclined reinforcing rods (64), the bottom of each vertical moving plate (65) is fixedly provided with the connecting rods (66), and the middle part of the rear end of the surface of the bedplate (1) is fixedly connected with one end of each vertical electro-hydraulic push rod (67), and the other end of each electro-hydraulic push rod (67) is connected with the bottom end of the connecting rods (66);

the vertical shielding assembly (9) comprises a shielding frame (91), side through grooves (92), a wave paperboard (93), a cross slide column (94) and side nuts (95), wherein the side, close to an aluminum alloy section bar (13), of the longitudinal moving plate (65) is fixedly provided with the transverse shielding frame (91), the two sides of the shielding frame (91) are respectively provided with the side through grooves (92), the upper side and the lower side of the inside of the shielding frame (91) are respectively fixedly connected with the end parts of the two wave paperboards (93), the bottom end of the wave paperboard (93) on the upper side and the top end of the wave paperboard (93) on the lower side are respectively connected with the cross slide column (94), and the two ends of the cross slide column (94) respectively penetrate through the side through grooves (92) and are in threaded connection with the side nuts (95);

still include horizontal shielding component (10), horizontal shielding component (10) include ejector pin (101), rectangular channel (102), horizontal sliding block (103), connecting strip (104), erect shielding plate (105), top through groove (106), screw thread post (107) and top nut (108), the top of shielding frame (91) is fixed with horizontal ejector pin (101), rectangular channel (102) have been seted up to one side that aluminium alloy ex-trusions (13) were kept away from to ejector pin (101), both sides sliding connection slider (103) respectively in rectangular channel (102), the side of horizontal sliding block (103) is connected with through connecting strip (104) and erects shielding plate (105), top through groove (106) of intercommunication rectangular channel (102) have been seted up at the top of ejector pin (101), the top screw thread post (107) that pass through top through groove (106) are equipped with to the top screw thread connection of screw thread post (107) has top nut (108).

2. The aluminum alloy spraying processing structure according to claim 1, wherein the transverse moving assembly (7) comprises a transverse moving motor (71), side plates (72), transverse sliding rods (73), transverse screw rods (74) and transverse sliding blocks (75), the two ends of one side, far away from the aluminum alloy section bar (13), of each longitudinal moving plate (65) are respectively fixed with the side plates (72), the transverse screw rods (74) are rotated between the two side plates (72), the transverse sliding rods (73) are fixed between the two side plates (72), one end of each transverse screw rod (74) is connected with an output shaft of the corresponding transverse moving motor (71), the transverse moving motor (71) is fixed on the outer side of one side plate (72), screw holes on the side face of each transverse sliding block (75) are in threaded connection with the corresponding transverse sliding rod (74), and sliding holes on the side face of each transverse sliding block (75) are in sliding connection with the corresponding transverse sliding rods (73).

3. The aluminum alloy spraying processing structure according to claim 2, wherein the spraying head comprises a bent rod (81), a motor seat (82), a control motor (83), a cam (84), a roller (85), a rotating shaft (86), a sleeve ring (87), control rods (88), springs (89), a bracket (810), a bearing three (811) and a control shaft (812), the top of the transverse moving block (75) is fixedly connected with the bottom end of the bent rod (81), the top end of the bent rod (81) is bent towards the direction of an aluminum alloy profile (13), the top end side surface of the bent rod (81) is rotationally connected with one end of the shaft (812) through a bearing three (811), the other end of the control shaft (812) is fixedly connected with the sleeve ring (87), the spraying head (14) is sleeved in the sleeve ring (87), the upper end and the lower end of the sleeve ring (87) are fixedly connected with one ends of the two control rods (88), one end of the top end of the upper control rod (88) far away from the aluminum alloy profile (13) is connected with one end of the spring (89), the other end of the top end of the upper end (88) is connected with the roller (88) through the bracket (86), the side of the bent rod (81) is fixed with an orientation control motor (83) through a motor seat (82), an output shaft of the orientation control motor (83) is connected with a cam (84), and the cam (84) is in rolling connection with a roller (85).

4. The aluminum alloy spraying processing structure according to claim 1, further comprising a clamping buffer assembly (5), wherein the clamping buffer assembly (5) comprises a mounting groove (51), a telescopic rod (52), a buffer spring (53), a buffer plate (54) and a buffer hemisphere (55), the mounting groove (51) is formed in one end, far away from the turnover shaft (44), of each of the two clamping discs (37), the buffer plate (54) in sliding connection with the mounting groove (51) is connected in the mounting groove (51) through the telescopic rod (52), the buffer spring (53) is sleeved on the side face of the telescopic rod (52), and the buffer hemisphere (55) is mounted on the outer side of the buffer plate (54).

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