CN112892935A - Annular aluminum profile machining and spraying device and machining method thereof - Google Patents

Abstract

The invention provides a spraying device for processing an annular aluminum profile, which comprises a rack, a driving assembly and a spraying assembly, wherein the driving assembly is arranged on the rack; by arranging the two contact rollers, the annular piece to be sprayed can be driven to rotate, so that the annular piece to be sprayed is in a continuous rotating state; in addition, the rotating body can rotate periodically around the inner side and the outer side of the ring piece to be sprayed through the arrangement of the driving wheel; through the setting of shower nozzle on the rotator, just can carry out the even spraying of full aspect to the inboard and the outside of annular member to the contact roller makes gradually and treats the spraying annular member and rotate, and then makes the shower nozzle can carry out the spraying to the whole surface of annular member, and this kind of spraying process is at the uniform velocity, and all remain the same dwell time to every region on the surface, the coating thickness that obtains like this is even and has still realized the effect of automatic spraying, has improved work efficiency.

Description

Annular aluminum profile machining and spraying device and machining method thereof

Technical Field

The invention relates to a device and a method for processing an annular aluminum profile, in particular to a device structure and a method for realizing omnibearing uniform spraying on the annular aluminum profile.

Background

On the basis of aluminum, a light metal structure is formed by adding some other type of alloying element. In addition to the general characteristics of aluminum, aluminum alloys have certain alloy specific characteristics due to the variety and amount of alloying elements added. The alloy steel has excellent performance, general strength close to that of high alloy steel, specific rigidity higher than that of steel, good casting performance, good plastic processing performance, good electric and heat conducting performance, good corrosion resistance and weldability, can be used as a structural material, and has wide application in aerospace, aviation, transportation, construction, electromechanics, lightening and daily necessities.

Aluminum alloy can be processed into aluminum alloy sections with different shapes and structures through processes of polishing, cutting, bending deformation and the like, the aluminum alloy sections are referred to as aluminum profiles for short, and the aluminum profiles can be applied to different industrial and living scenes.

For processing aluminum profiles, in order to improve the quality or service life of the product, paint spraying treatment is generally required on the surface. The aluminium alloy of loop configuration is comparatively common aluminium alloy structure, and to this type of annular aluminium alloy, how to form the even unanimous and comprehensive coating structure of coverage of one deck thickness on its surface just becomes very difficult, does not can propose comparatively high-efficient and even and comprehensive device structure of spraying effect to this kind of annular aluminium alloy of loop configuration among the prior art.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a device structure and a method capable of achieving the effect of comprehensively and uniformly spraying annular aluminum profiles.

The invention provides an annular aluminum profile processing and spraying device which comprises a rack, a driving assembly and a spraying assembly, wherein the driving assembly is arranged on the rack;

the spraying device comprises a rack, a spraying device and a spraying device, wherein the rack is provided with a first plate body and a second plate body which are arranged in parallel relatively, a third plate body is arranged in the middle of the first plate body and the second plate body, the third plate body is perpendicular to the first plate body, the middle of the third plate body is provided with a hole structure, and a ring piece to be sprayed is arranged in the hole structure;

the driving assembly is provided with a first contact roller and a second contact roller, and the first contact roller and the second contact roller are respectively in contact fit with the lower ends of two sides of the bottom of the ring piece to be sprayed; the two ends of the first contact roller are respectively connected with the first plate body and the second plate body, the two ends of the second contact roller are respectively connected with the first plate body and the second plate body, and the first contact roller and/or the second contact roller are/is connected with a power source;

the spraying assembly is provided with a driving source, a connecting piece, a driving wheel, a driven wheel, a rotating body and a spray head which are sequentially connected, the driving wheel and the driven wheel are arranged around the edge of the open pore structure, the rotating body is clamped in a plurality of first clamping grooves of the driving wheel and second clamping grooves of the driven wheel, and a first plane of the rotating direction of the rotating body is perpendicular to a second plane of the ring piece to be sprayed.

The beneficial effect that above-mentioned scheme produced does: by arranging the two contact rollers, the annular piece to be sprayed can be driven to rotate, so that the annular piece to be sprayed is in a continuous rotating state; in addition, the rotating body can rotate periodically around the inner side and the outer side of the ring piece to be sprayed through the arrangement of the driving wheel; through the setting of shower nozzle on the rotator, just can carry out the even spraying of full aspect to the inboard and the outside of annular member to the contact roller makes gradually and treats the spraying annular member and rotate, and then makes the shower nozzle can carry out the spraying to the whole surface of annular member, and this kind of spraying process is at the uniform velocity, and all remain the same dwell time to every region on the surface, the coating thickness that obtains like this is even and has still realized the effect of automatic spraying, has improved work efficiency.

One preferred scheme is that the power supply is a first motor, the first contact roller is arranged on the first plate body through a first connecting rod, a first roller and a second roller are arranged on the first connecting rod, the first motor is connected with the first roller through a first connecting belt, the second roller is connected with a second connecting rod through a second connecting belt and a third roller in sequence, and the second connecting rod is further connected with the second contact roller.

The beneficial effect that above-mentioned scheme produced does: can only drive one of them to the contact roller, also can drive two rollers simultaneously and rotate, can play better, more stable effect when rotating simultaneously, and then can realize the drive to two synchronous syntropies of contact roller through the relation of connection of motor and gyro wheel when driving simultaneously.

A preferred scheme is that the driving source is a second motor, the connecting member includes a third connecting rod, a fourth connecting rod, a fifth connecting rod and a sixth connecting rod, the third connecting rod is provided with a fourth roller and a fifth roller, the fourth connecting rod is provided with a sixth roller and a seventh roller, the fifth connecting rod is provided with an eighth roller, the sixth connecting rod is provided with a ninth roller, the second motor is connected with the third connecting rod, the fourth roller is connected with the fourth roller through a belt, the fifth roller is connected with the eighth roller through a belt, and the seventh roller is connected with the ninth roller through a belt;

the third connecting rod, the fourth connecting rod, the fifth connecting rod and the sixth connecting rod all penetrate through the third plate body and are respectively connected with one of the driving wheels, and a driven wheel is arranged between every two adjacent driving wheels.

The beneficial effect that above-mentioned scheme produced does: four driving wheels which are symmetrically arranged are arranged, the four driving wheels are arranged through the connection relation, the homologous driving of the second motor is realized, and the four driving wheels are evenly arranged at intervals, so that the clamping effect of the rotating body is more stable, and the intervals of the driving wheels and the driven wheels are evenly arranged to enable the clamping and rotating effect of the rotating body to be very stable.

One preferred scheme is that the device comprises a limiting structure, and the limiting structure comprises a screw rod structure. The both ends of lead screw structure set up on first plate body and the second plate body, lead screw structure links to each other with the third motor, just limit structure is two sets of, and two sets of limit structure set up respectively treat the both sides of spraying loop forming element, lead screw structure has included positive direction rotation section and counter-rotation section, be provided with first supporting rod on the positive direction rotation section, be provided with the second supporting rod on the counter-rotation section, be provided with first stabilizer wheel on the first supporting rod, be provided with the second stabilizer wheel on the second supporting rod.

The beneficial effect that above-mentioned scheme produced does: in the rotation process of ring member, in order to avoid it to take place to shift in the horizontal direction, set up the clamping rod here, the clamping action through the clamping rod can be to the ring member by the restriction between the clamping rod on the horizontal direction, has improved its job stabilization nature, avoids shifting the problem that the product quality that causes descends.

One preferred scheme is that the device further comprises an upper ring assembly, wherein the upper ring assembly comprises an inclined conveying frame, the inclined conveying frame comprises an inclined bottom plate and two side guard plates, a plurality of ring pieces to be sprayed are adjacently and sequentially arranged in the inclined conveying frame, and an outlet of the inclined conveying frame is opposite to clamping spaces of the first clamping rod and the second clamping rod;

the upper ring assembly is further provided with an interval ring conveying assembly, the interval ring conveying assembly comprises an air cylinder, a sliding rod and a sliding ring, a limiting rod is arranged at the upper end of the sliding rod, and the lower end of the sliding rod is connected with a limiting vertical plate through a transverse plate.

The beneficial effect that above-mentioned scheme produced does: through the cooperation of cylinder, gag lever post and spacing riser, can realize once supplying the purpose of a loop forming element to this kind of structure sets up very rationally, puts a loop forming element that descends just in time in the conveying frame to one side at every turn and treats the spraying station that can enter into the below, has further realized the automation and the serialization that supply the ring, has saved the efficiency problem that the manual work was placed.

The invention provides a processing method of a circular aluminum profile processing and spraying device, which comprises the following steps:

s1: starting a driving assembly to work, enabling the first contact roller and/or the second contact roller to rotate through power provided by the power source, and correspondingly driving the ring-shaped piece to be sprayed to rotate circumferentially in the rotating process of the first contact roller and/or the second contact roller;

s2: simultaneously, through the spraying subassembly carries out work, the action wheel rotates, through first centre gripping groove drives the rotator rotates, the rotator carries out the corresponding feasible of pivoted in-process the shower nozzle sprays liquid to treat on the spraying annular member, and along with treat the circumferential motion of spraying annular member and combine the circumferential motion of rotator, can make the shower nozzle is right treat that the inboard and the outside of spraying annular member carry out the even spraying of full aspect.

A preferred scheme is that the power source is a first motor, the first contact roller is arranged on the first plate body through a first connecting rod, a first roller and a second roller are arranged on the first connecting rod, the first motor is connected with the first roller through a first connecting belt, the second roller is connected with a second connecting rod sequentially through a second connecting belt and a third roller, and the second connecting rod is further connected with the second contact roller;

the working method comprises the following steps: the first connecting belt drives the first roller and the first connecting rod to rotate by providing power through the first motor, and the first connecting rod correspondingly drives the first contact roller to rotate; in addition, the second roller can also rotate along with the rotation of the first connecting rod, and correspondingly, the second connecting belt and the third roller are driven to rotate the second connecting rod, and the second connecting rod enables the second contact roller to rotate.

A preferred scheme is that the driving source is a second motor, the connecting member includes a third connecting rod, a fourth connecting rod, a fifth connecting rod and a sixth connecting rod, the third connecting rod is provided with a fourth roller and a fifth roller, the fourth connecting rod is provided with a sixth roller and a seventh roller, the fifth connecting rod is provided with an eighth roller, the sixth connecting rod is provided with a ninth roller, the second motor is connected with the third connecting rod, the fourth roller is connected with the sixth roller through a belt, the fifth roller is connected with the eighth roller through a belt, and the seventh roller is connected with the ninth roller through a belt;

the third connecting rod, the fourth connecting rod, the fifth connecting rod and the sixth connecting rod penetrate through the third plate body and are respectively connected with one driving wheel, and a driven wheel is arranged between every two adjacent driving wheels;

the working method comprises the following steps: the second motor provides power, through the corresponding drive of belt the third connecting rod rotates, the third connecting rod drives fourth gyro wheel and fifth gyro wheel rotate, the fourth gyro wheel passes through the belt and drives sixth gyro wheel with the fourth connecting rod rotates, the seventh gyro wheel passes through the belt and drives the ninth gyro wheel rotates, the fifth gyro wheel passes through the belt and drives the eighth gyro wheel rotates, the seventh gyro wheel passes through the belt and drives the ninth gyro wheel rotates.

One preferred scheme is that the device comprises a limiting structure, and the limiting structure comprises a screw rod structure. The two ends of the screw rod structure are arranged on the first plate body and the second plate body, the screw rod structure is connected with a third motor, the two groups of limiting structures are arranged on two sides of the ring-shaped member to be sprayed respectively, the screw rod structure comprises a forward rotating section and a reverse rotating section, a first clamping rod is arranged on the forward rotating section, a second clamping rod is arranged on the reverse rotating section, a first stabilizing wheel is arranged on the first clamping rod, and a second stabilizing wheel is arranged on the second clamping rod;

the working method comprises the following steps: the third motor works to drive the screw rod structure to rotate, the screw rod structure is in a rotating process, so that the first clamping rod and the second clamping rod clamp and move or loosen and move back to back towards the middle position of the screw rod structure, and in the process of clamping and moving, the first stabilizing wheel and the second stabilizing wheel form a supporting and stabilizing effect on the ring piece to be sprayed in the middle.

One preferred scheme is that the device further comprises an upper ring assembly, wherein the upper ring assembly comprises an inclined conveying frame, the inclined conveying frame comprises an inclined bottom plate and two side guard plates, a plurality of ring pieces to be sprayed are adjacently and sequentially arranged in the inclined conveying frame, and an outlet of the inclined conveying frame is opposite to clamping spaces of the first clamping rod and the second clamping rod;

the upper ring assembly is also provided with an interval ring feeding assembly, the interval ring feeding assembly comprises an air cylinder, a sliding rod and a sliding ring, the upper end of the sliding rod is provided with a limiting rod, and the lower end of the sliding rod is connected with a limiting vertical plate through a transverse plate;

the working method comprises the following steps: in the initial position, the sliding rod is in a relatively low position, the limiting rod limits the front end of the ring-shaped member to be sprayed to move at the moment, the limiting vertical plate is located at the rear end of the ring-shaped member to be sprayed, and the limiting vertical plates are located in the lower side clamping spaces of two adjacent ring-shaped members to be sprayed;

when the ring needs to be fed, the air cylinder drives the sliding rod to perform lifting motion, the limiting rod gradually loses the limiting effect on the lowest ring piece to be sprayed, meanwhile, the limiting vertical plate moves upwards, and the limiting effect is formed on the next lower ring piece to be sprayed, so that the lowest ring piece to be sprayed moves downwards, rolls into a clamping position between the first contact roller and the second contact roller along the outlet of the inclined conveying frame, and waits for the completion of the following spraying process;

the air cylinder drives the sliding rod to restore to the initial position, the limiting rod has a limiting effect again at the moment, the vertical plate loses the limiting effect, and the ring parts to be sprayed below the limiting rod and all the ring parts to be sprayed above the limiting rod move towards the limiting rod in a unified mode by an interval distance.

Drawings

Fig. 1 is a schematic structural diagram of an annular aluminum profile processing and spraying device provided by the invention.

Fig. 2 is a schematic structural view of another view angle of the spraying device for processing the annular aluminum profile provided by the invention.

Fig. 3 is a schematic structural view of another view angle of the spraying device for processing the annular aluminum profile provided by the invention.

Fig. 4 is a schematic structural view of the spraying device for processing the annular aluminum profile provided by the invention after a ring-shaped part is omitted.

Fig. 5 is a schematic structural view of the spraying device for processing the annular aluminum profile provided by the invention after a ring-shaped part is omitted.

Fig. 6 is a schematic structural diagram of a preferred embodiment of the spraying device for processing the annular aluminum profile provided by the invention.

Fig. 7 is a schematic structural diagram of a part of components of a preferred embodiment of the spraying device for processing the annular aluminum profile provided by the invention.

Fig. 8 is a schematic structural diagram of a part of components of a preferred embodiment of the spraying device for processing the annular aluminum profile provided by the invention.

Fig. 9 is a schematic structural diagram of a part of components of a preferred embodiment of the spraying device for processing the annular aluminum profile provided by the invention.

Detailed Description

The first embodiment:

as shown in fig. 1 to 9, the present invention provides an annular aluminum profile processing and spraying device, which includes a frame 10, a driving assembly 20 and a spraying assembly 40;

the frame 10 has first plate 11 and second plate 12 of relative parallel arrangement, and the middle part of first plate 11 and second plate 12 is provided with third plate 13, and third plate 13 and first plate 11 mutually perpendicular have trompil structure 14 in the middle part of third plate 13, is provided with in trompil structure 14 and waits to spray annular member 15.

The driving assembly 20 is provided with a first contact roller 21 and a second contact roller 22, and the first contact roller 21 and the second contact roller 22 are respectively in contact fit with the lower ends of the two sides of the bottom of the ring-shaped member 15 to be sprayed. Both ends of the first contact roller 21 are connected with the first plate body 11 and the second plate body 12, respectively, both ends of the second contact roller 22 are connected with the first plate body 11 and the second plate body 12, respectively, and the first contact roller 21 and the second contact roller 22 are connected with a power source.

The spraying assembly 40 is provided with a driving source, a connecting member, a driving wheel 43, a driven wheel 44, a rotating body 45 and a spraying head 46 which are connected in sequence, the driving wheel 43 and the driven wheel 44 are arranged around the edge of the open pore structure 14, the rotating body 45 is clamped in a first clamping groove 47 of the driving wheel 43 and a second clamping groove 48 of the driven wheel 44, and a first plane of the rotating direction of the rotating body 45 is perpendicular to a second plane of the ring-shaped member 15 to be sprayed.

The invention provides a processing method of a circular aluminum profile processing and spraying device, which comprises the following steps:

s1: the driving assembly 20 is started to work, the first contact roller 21 and/or the second contact roller 22 are/is enabled to rotate through power provided by the power source, and the first contact roller 21 and/or the second contact roller 22 correspondingly drive the ring-shaped member 15 to be sprayed to rotate in the circumferential direction in the rotating process;

s2: simultaneously, work through spraying assembly 40, action wheel 43 rotates, drives rotator 45 through first centre gripping groove 47 and rotates, and rotator 45 carries out the pivoted in-process and correspondingly makes shower nozzle 46 spray liquid to waiting to spray annular member 15 to along with waiting to spray annular member 15's circumferential motion and combine rotator 45's circumferential motion, can make shower nozzle 46 carry out the even spraying of full aspect to waiting to spray annular member 15's the inboard and the outside.

Second embodiment:

the power source is a first motor 41, the first contact roller 21 is disposed on the first plate 11 through a first connecting rod 51, the first connecting rod 51 is provided with a first roller 61 and a second roller 62, the first motor 41 is connected with the first roller 61 through a first connecting belt 611, the second roller 62 is connected with the second connecting rod 52 through a second connecting belt 621 and a third roller 63 in sequence, and the second connecting rod 52 is further connected with the second contact roller 22.

The working method comprises the following steps: the first motor 41 provides power, the first connecting belt 611 drives the first roller 61 and the first connecting rod 51 to rotate, and the first connecting rod 51 correspondingly drives the first contact roller 21 to rotate; in addition, the second roller 62 rotates along with the rotation of the first connecting rod 51, and accordingly, the second connecting rod 621 and the third roller 63 are driven to rotate the second connecting rod 52, and the second connecting rod 52 rotates the second contact roller 22.

The third embodiment:

the driving source is a second motor 49, the connecting piece comprises a third connecting rod 53, a fourth connecting rod 54, a fifth connecting rod 55 and a sixth connecting rod 56, a fourth roller 64 and a fifth roller 65 are arranged on the third connecting rod 53, a sixth roller 66 and a seventh roller 67 are arranged on the fourth connecting rod 54, an eighth roller 68 is arranged on the fifth connecting rod 55, a ninth roller 69 is arranged on the sixth connecting rod 56, the second motor 49 is connected with the third connecting rod 53, the fourth roller 64 is connected with the sixth roller 66 through a belt, the fifth roller 65 is connected with the eighth roller 68 through a belt, and the seventh roller 67 is connected with the ninth roller 69 through a belt.

The third connecting rod 53, the fourth connecting rod 54, the fifth connecting rod 55 and the sixth connecting rod 56 all pass through the third plate body 13 and are respectively connected with one driving wheel 43, and a driven wheel 44 is arranged between two adjacent driving wheels 43.

The working method comprises the following steps: the second motor 49 provides power, the third connecting rod 53 is correspondingly driven to rotate through a belt, the third connecting rod 53 drives the fourth roller 64 and the fifth roller 65 to rotate, the fourth roller 64 drives the sixth roller 66 and the fourth connecting rod 54 to rotate through the belt, the seventh roller 67 drives the ninth roller 69 to rotate through the belt, and the fifth roller 65 drives the eighth roller 68 to rotate through the belt. Thereby rotating the plurality of driving wheels 43 to rotate the rotating body 45 for the purpose of painting the annular member around.

The fourth embodiment:

including limit structure, limit structure includes lead screw structure 70. The two ends of the screw rod structure 70 are arranged on the first plate body 11 and the second plate body 12, the screw rod structure 70 is connected with the third motor 71, the limiting structures are two groups, the two groups of limiting structures are respectively arranged on two sides of the ring part 15 to be sprayed, the screw rod structure 70 comprises a forward rotation section 72 and a reverse rotation section 73, a first clamping rod 74 is arranged on the forward rotation section 72, a second clamping rod 75 is arranged on the reverse rotation section 73, a first stabilizing wheel 76 is arranged on the first clamping rod 74, and a second stabilizing wheel 77 is arranged on the second clamping rod 75. In addition, the bottom portions of the first and second clamping bars 74 and 75 are disposed at the guide rail 97 through the connection block 95 and the slider 96.

The working method comprises the following steps: the third motor 71 works to drive the screw rod structure 70 to rotate, the screw rod structure 70 enables the first clamping rod 74 and the second clamping rod 75 to clamp and move or release and move back to back towards the middle position of the screw rod structure 70 in the rotating process, and in the clamping and moving process, the first stabilizing wheel 76 and the second stabilizing wheel 77 form a supporting and stabilizing effect on the middle part of the ring-shaped member 15 to be sprayed.

Fifth embodiment:

the spraying device further comprises an upper ring assembly 80, wherein the upper ring assembly 80 comprises an inclined conveying frame 81, the inclined conveying frame 81 comprises an inclined bottom plate 82 and two side guard plates 83, a plurality of ring pieces 15 to be sprayed are adjacently and sequentially arranged in the inclined conveying frame 81, and an outlet of the inclined conveying frame 81 is opposite to clamping spaces of the first clamping rod 74 and the second clamping rod 75;

the upper ring assembly is also provided with a spacing ring feeding assembly 85, the spacing ring feeding assembly 85 comprises an air cylinder 86, a sliding rod 87 and a sliding ring 79, the upper end of the sliding rod 87 is provided with a limiting rod 88, and the lower end of the sliding rod 87 is connected with a limiting vertical plate 91 through a transverse plate 89;

the working method comprises the following steps: in the initial position, the sliding rod 87 is in a relatively low position, the limiting rod 88 limits the front end of the ring piece 15 to be sprayed to move, the limiting vertical plate 91 is positioned at the rear end of the ring piece 15 to be sprayed, and the limiting vertical plate 91 is positioned in the lower side clamping space of two adjacent ring pieces 15 to be sprayed;

when the ring feeding is needed, the air cylinder 86 drives the sliding rod 87 to perform lifting movement, the limiting rod 88 gradually loses the limiting effect on the lowest ring piece 15 to be sprayed, the limiting vertical plate 91 moves upwards and forms the limiting effect on the next lower ring piece 15 to be sprayed, so that the lowest ring piece 15 to be sprayed moves downwards, rolls into the clamping position between the first contact roller 21 and the second contact roller 22 along the outlet of the inclined conveying frame 81 and waits for the completion of the following spraying process;

the cylinder 86 drives the sliding rod 87 to restore to the initial position, at the moment, the limiting rod 88 has a limiting effect again, the vertical plate 91 loses the limiting effect, and the ring piece 15 to be sprayed below the next time and all the ring piece 15 to be sprayed above the next time move towards the limiting rod 88 by a spacing distance in a unified mode.

Claims (10)

1. The utility model provides an annular aluminium alloy processing spraying device which characterized in that includes:

the spraying device comprises a rack, a spraying device and a spraying device, wherein the rack is provided with a first plate body and a second plate body which are arranged in parallel relatively, a third plate body is arranged in the middle of the first plate body and the second plate body, the third plate body is perpendicular to the first plate body, the middle of the third plate body is provided with a hole structure, and a ring piece to be sprayed is arranged in the hole structure;

the driving assembly is provided with a first contact roller and a second contact roller, and the first contact roller and the second contact roller are respectively in contact fit with the lower ends of two sides of the bottom of the ring piece to be sprayed; the two ends of the first contact roller are respectively connected with the first plate body and the second plate body, the two ends of the second contact roller are respectively connected with the first plate body and the second plate body, and the first contact roller and/or the second contact roller are/is connected with a power source;

the spraying assembly is provided with a driving source, a connecting piece, a driving wheel, a driven wheel, a rotating body and a spray head which are sequentially connected, the driving wheel and the driven wheel are arranged around the edge of the open pore structure, the rotating body is clamped in a plurality of first clamping grooves of the driving wheel and second clamping grooves of the driven wheel, and a first plane of the rotating direction of the rotating body is perpendicular to a second plane of the ring piece to be sprayed.

2. The annular aluminum profile processing and spraying device as claimed in claim 1, characterized by comprising:

the power supply is first motor, first contact roller passes through the first connecting rod setting on the first plate body, be provided with first gyro wheel and second gyro wheel on the first connecting rod, first motor pass through first connecting band with first gyro wheel is connected, the second gyro wheel loops through second connecting band, third gyro wheel and is connected with the second connecting rod, just the second connecting rod still with the second contact roller is connected.

3. An annular aluminum profile processing and spraying device as claimed in claim 1, wherein the driving source is a second motor, the connecting member comprises a third connecting rod, a fourth connecting rod, a fifth connecting rod and a sixth connecting rod, the third connecting rod is provided with a fourth roller and a fifth roller, the fourth connecting rod is provided with a sixth roller and a seventh roller, the fifth connecting rod is provided with an eighth roller, the sixth connecting rod is provided with a ninth roller, the second motor is connected with the third connecting rod, the fourth roller is connected with the fourth roller through a belt, the fifth roller is connected with the eighth roller through a belt, and the seventh roller is connected with the ninth roller through a belt;

the third connecting rod, the fourth connecting rod, the fifth connecting rod and the sixth connecting rod all penetrate through the third plate body and are respectively connected with one of the driving wheels, and a driven wheel is arranged between every two adjacent driving wheels.

4. The annular aluminum profile processing and spraying device as claimed in claim 1, wherein the device comprises a limiting structure, and the limiting structure comprises a screw rod structure; the both ends of lead screw structure set up on first plate body and the second plate body, lead screw structure links to each other with the third motor, just limit structure is two sets of, and two sets of limit structure set up respectively treat the both sides of spraying loop forming element, lead screw structure has included positive direction rotation section and counter-rotation section, be provided with first supporting rod on the positive direction rotation section, be provided with the second supporting rod on the counter-rotation section, be provided with first stabilizer wheel on the first supporting rod, be provided with the second stabilizer wheel on the second supporting rod.

5. The annular aluminum profile processing and spraying device as claimed in claim 1,

the device comprises a first clamping rod, a second clamping rod, an inclined conveying frame, a first clamping rod, a second clamping rod, a first clamping rod and a second clamping rod, wherein the first clamping rod and the second clamping rod are arranged in parallel;

the upper ring assembly is further provided with an interval ring conveying assembly, the interval ring conveying assembly comprises an air cylinder, a sliding rod and a sliding ring, a limiting rod is arranged at the upper end of the sliding rod, and the lower end of the sliding rod is connected with a limiting vertical plate through a transverse plate.

6. The processing method of the annular aluminum profile processing and spraying device as claimed in claim 1, characterized in that,

the method comprises the following steps:

s1: starting a driving assembly to work, enabling the first contact roller and/or the second contact roller to rotate through power provided by the power source, and correspondingly driving the ring-shaped piece to be sprayed to rotate circumferentially in the rotating process of the first contact roller and/or the second contact roller;

s2: simultaneously, through the spraying subassembly carries out work, the action wheel rotates, through first centre gripping groove drives the rotator rotates, the rotator carries out the corresponding feasible of pivoted in-process the shower nozzle sprays liquid to treat on the spraying annular member, and along with treat the circumferential motion of spraying annular member and combine the circumferential motion of rotator, can make the shower nozzle is right treat that the inboard and the outside of spraying annular member carry out the even spraying of full aspect.

7. The processing method of the annular aluminum profile processing and spraying device as claimed in claim 6, characterized in that,

the power source is a first motor, the first contact roller is arranged on the first plate body through a first connecting rod, a first idler wheel and a second idler wheel are arranged on the first connecting rod, the first motor is connected with the first idler wheel through a first connecting belt, the second idler wheel is connected with a second connecting rod through a second connecting belt and a third idler wheel in sequence, and the second connecting rod is further connected with the second contact roller;

the working method comprises the following steps: the first connecting belt drives the first roller and the first connecting rod to rotate by providing power through the first motor, and the first connecting rod correspondingly drives the first contact roller to rotate; in addition, the second roller can also rotate along with the rotation of the first connecting rod, and correspondingly, the second connecting belt and the third roller are driven to rotate the second connecting rod, and the second connecting rod enables the second contact roller to rotate.

8. A processing method of an annular aluminum profile processing and spraying device as claimed in claim 7, characterized in that the driving source is a second motor, the connecting piece comprises a third connecting rod, a fourth connecting rod, a fifth connecting rod and a sixth connecting rod, a fourth roller and a fifth roller are arranged on the third connecting rod, a sixth roller and a seventh roller are arranged on the fourth connecting rod, an eighth roller is arranged on the fifth connecting rod, a ninth roller is arranged on the sixth connecting rod, the second motor is connected with the third connecting rod, the fourth roller is connected with the sixth roller through a belt, the fifth roller is connected with the eighth roller through a belt, and the seventh roller is connected with the ninth roller through a belt;

the third connecting rod, the fourth connecting rod, the fifth connecting rod and the sixth connecting rod penetrate through the third plate body and are respectively connected with one driving wheel, and a driven wheel is arranged between every two adjacent driving wheels;

the working method comprises the following steps: the second motor provides power, through the corresponding drive of belt the third connecting rod rotates, the third connecting rod drives fourth gyro wheel and fifth gyro wheel rotate, the fourth gyro wheel passes through the belt and drives sixth gyro wheel with the fourth connecting rod rotates, the seventh gyro wheel passes through the belt and drives the ninth gyro wheel rotates, the fifth gyro wheel passes through the belt and drives the eighth gyro wheel rotates, the seventh gyro wheel passes through the belt and drives the ninth gyro wheel rotates.

9. A processing method of an annular aluminum profile processing and spraying device as claimed in claim 8, characterized by comprising a limiting structure, wherein the limiting structure comprises a screw rod structure; the two ends of the screw rod structure are arranged on the first plate body and the second plate body, the screw rod structure is connected with a third motor, the two groups of limiting structures are arranged on two sides of the ring-shaped member to be sprayed respectively, the screw rod structure comprises a forward rotating section and a reverse rotating section, a first clamping rod is arranged on the forward rotating section, a second clamping rod is arranged on the reverse rotating section, a first stabilizing wheel is arranged on the first clamping rod, and a second stabilizing wheel is arranged on the second clamping rod;

the working method comprises the following steps: the third motor works to drive the screw rod structure to rotate, the screw rod structure is in a rotating process, so that the first clamping rod and the second clamping rod clamp and move or loosen and move back to back towards the middle position of the screw rod structure, and in the process of clamping and moving, the first stabilizing wheel and the second stabilizing wheel form a supporting and stabilizing effect on the ring piece to be sprayed in the middle.

10. The processing method of the annular aluminum profile processing and spraying device as claimed in claim 9, characterized in that,

the device comprises a first clamping rod, a second clamping rod, an inclined conveying frame, a first clamping rod, a second clamping rod, a first clamping rod and a second clamping rod, wherein the first clamping rod and the second clamping rod are arranged in parallel;

the upper ring assembly is also provided with an interval ring feeding assembly, the interval ring feeding assembly comprises an air cylinder, a sliding rod and a sliding ring, the upper end of the sliding rod is provided with a limiting rod, and the lower end of the sliding rod is connected with a limiting vertical plate through a transverse plate;

the working method comprises the following steps: in the initial position, the sliding rod is in a relatively low position, the limiting rod limits the front end of the ring-shaped member to be sprayed to move at the moment, the limiting vertical plate is located at the rear end of the ring-shaped member to be sprayed, and the limiting vertical plates are located in the lower side clamping spaces of two adjacent ring-shaped members to be sprayed;

when the ring needs to be fed, the air cylinder drives the sliding rod to perform lifting motion, the limiting rod gradually loses the limiting effect on the lowest ring piece to be sprayed, meanwhile, the limiting vertical plate moves upwards, and the limiting effect is formed on the next lower ring piece to be sprayed, so that the lowest ring piece to be sprayed moves downwards, rolls into a clamping position between the first contact roller and the second contact roller along the outlet of the inclined conveying frame, and waits for the completion of the following spraying process;

the air cylinder drives the sliding rod to restore to the initial position, the limiting rod has a limiting effect again at the moment, the vertical plate loses the limiting effect, and the ring parts to be sprayed below the limiting rod and all the ring parts to be sprayed above the limiting rod move towards the limiting rod in a unified mode by an interval distance.

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