CN111843030A - Multipurpose sectional material and preparation process thereof - Google Patents

Abstract

The invention discloses a multipurpose sectional material and a preparation process thereof, and the multipurpose sectional material comprises the following steps: fixing the aluminum profile, and cutting the aluminum profile by using a cutting device; taking down the cut aluminum section, and placing the cutting end of the aluminum section right above the sand pool; connecting the flexible pipe by using a stamping pump, and aligning a sand outlet of the sand flowing pipe with the sand pool; adding quicksand into the stamping pump, and starting the stamping pump until burrs on the aluminum profile are pushed out of the aluminum profile; closing the stamping pump, and taking down the aluminum profile after the quicksand in the aluminum profile pipe completely flows out; removing burrs of the pushed aluminum profile by using a deburring device; using a deburring device to continuously carry out fine machining on the cutting end of the aluminum profile; according to the invention, after cutting is finished, the cut powder and finished products are automatically classified, and garbage is uniformly recovered and sorted, so that the working environment is clean and tidy, and the labor force is saved.

Description

Multipurpose sectional material and preparation process thereof

Technical Field

The invention belongs to the technical field of section bar processing, and particularly relates to a multipurpose section bar and a preparation process thereof.

Background

When current cutting the section bar, can produce a large amount of garrulous ends, lead to operational environment variation, influence staff's healthy, consume a large amount of time simultaneously and remove with physical power and clean up, and the clearance clean and tidy inadequately.

Disclosure of Invention

The invention provides a processing technology of a multipurpose section bar in order to overcome the defects of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: a multipurpose sectional material and a preparation process thereof comprise the following steps:

a. fixing the aluminum profile, and cutting the aluminum profile by using a cutting device;

b. taking down the cut aluminum section, and placing the cutting end of the aluminum section right above the sand pool;

c. connecting the flexible pipe by using a stamping pump, and aligning a sand outlet of the sand flowing pipe with the sand pool;

d. adding quicksand into the stamping pump, and starting the stamping pump until burrs on the aluminum profile are pushed out of the aluminum profile;

e. closing the stamping pump, and taking down the aluminum profile after the quicksand in the aluminum profile pipe completely flows out;

f. removing burrs of the pushed aluminum profile by using a deburring device;

g. using a deburring device to continuously carry out fine machining on the cutting end of the aluminum profile;

the cutting device in the step a comprises a case, a containing box arranged on the case, a cutting mechanism arranged on the case and a moving mechanism arranged below the cutting mechanism; the moving mechanism comprises a working plate, an adsorption mechanism arranged in the working plate, moving tracks arranged on the front side and the rear side below the working plate, a moving connecting rod arranged on the moving tracks, a pulley arranged at one end of the moving connecting rod, a moving pull rod arranged at the other end of the moving connecting rod, a moving cylinder arranged below the moving pull rod, a plurality of purging mechanisms arranged on one side of the moving cylinder and a knocking mechanism arranged on one side of the purging mechanisms; the movable cylinder is started, the movable cylinder drives the movable pulling to move downwards, the movable pull rod drives the movable connecting rod to move downwards, the movable connecting rod drives the pulley to move on the movable rail, and the movable connecting rod drives the working plate to move simultaneously.

Through the electronic of moving motor for whole work removes more smoothly, and speed is more stable, when the working plate carries out the downstream, under the effect that removes the track, makes the removal that the working plate has going on of orbit, removes more smoothly, saves the labour, makes whole course of working efficiency improve greatly simultaneously, has improved the efficiency to the product cutting.

The purging mechanism comprises a purging cavity, a rotating groove arranged on one side of the purging cavity, a purging piston arranged at one end in the purging cavity, a purging rod arranged on the purging piston, a purging spring sleeved outside the purging rod, a moving piston arranged at the other end in the purging cavity, a moving rod arranged on the moving piston, a first moving spring sleeved outside the moving rod, a moving rack arranged on the moving spring, a moving groove arranged in the moving rack, a second moving spring arranged in the moving groove, a moving slider arranged on the second moving spring, a moving gear arranged on one side of the moving rack, a purging turntable arranged below the moving gear, an inclined gas outlet arranged on the circumferential direction of the purging turntable, a moving rotating shaft arranged in the moving gear in a penetrating manner, a plurality of gas outlet holes arranged on the circumferential direction of the moving rotating shaft and a gas pumping mechanism arranged on one side of the moving rack; when the working plate carries out the downstream, the working plate touches with the pole that sweeps, it carries out the rebound to sweep the pole, it drives to sweep the piston and carries out the rebound to sweep the pole, sweep the intracavity gas pressure grow for the movable piston carries out the rebound, the movable piston drives the movable rod and carries out the rebound, the movable rod drives the movable rack and carries out the rebound, the movable rack meshes with the moving gear mutually, the moving gear rotates, the moving gear drives and sweeps the carousel and rotate, also drive the removal pivot simultaneously and rotate, at this moment, it carries out rotatory jet-propelled to sweep the carousel.

Through moving rack and moving gear mesh mutually, it is rotatory to drive the moving gear, the moving gear is rotatory to drive and sweeps the carousel and rotate, sweep the carousel and carry out 360 degrees rotations to the working plate and blow, make the residue sweep the separation with the good work piece of cutting, when gaseous from slope gas outlet blowout, when the residue stops at the product upper surface, the slope gas outlet inclines to the residue of upper surface and spouts gas-blast, make the clearance effect more, when the working plate does not touch with sweeping the pole, under sweeping the spring, realize sweeping the automatic re-setting of pole, to the last clearance effect more of working plate, the production link has been improved, the greatly reduced labour, make whole work production line efficiency improve simultaneously, economic benefits improves.

The inflating mechanism comprises an inflating channel, an inflating slide block arranged in the inflating channel, an inflating rod arranged on the inflating slide block, a first inflating spring sleeved outside the inflating rod, an inflating moving plate arranged on the inflating rod, an inflating short rod arranged below the inflating moving plate, a second inflating spring sleeved outside the inflating short rod, and an inflating piston arranged on the inflating short rod; the movable rack moves leftwards, when the movable rack is in the position parallel to the inflating channel, the movable sliding block moves, the movable sliding block is in contact with the inflating sliding block, the inflating sliding block moves upwards, the inflating sliding block drives the inflating rod to move upwards, the inflating rod is in contact with one end of the inflating movable plate, the other end of the inflating movable plate moves downwards, one end of the inflating rod moves downwards to drive the inflating short rod to move downwards, the inflating short rod moves downwards to drive the inflating piston to move downwards, the air pressure in the movable rotating shaft is increased, and air is sprayed out from the air outlet hole.

When moving through the removal rack, drive and remove the slider and touch with the slider of inflating mutually for the pole of inflating carries out the rebound, need not with the help of extra power source, guarantees rotatory and inflate the step that keeps in step, moves down when inflating the piston, makes gas follow the venthole blowout, blows to the work plate surface, and the residue that stops on the work piece is also swept down, and the more smoothness nature of whole working process makes to improve efficiency to the section bar processing.

The beating mechanism comprises a beating groove, a beating recovery groove arranged below the beating groove, a first beating rack arranged in the beating groove, a first beating spring arranged on the first beating rack, a beating gear arranged on one side of the first beating rack, a second beating rack arranged on one side of the beating gear, a beating pipeline arranged on the second beating rack, a movable groove arranged on the beating pipeline, a movable mechanism arranged in the movable groove, a beating piston arranged at one end in the beating pipeline, a beating rod arranged on the beating piston, a second beating spring sleeved outside the beating rod, a beating piston arranged at the other end in the beating pipeline, a beating rod arranged on the beating piston, a beating spring sleeved outside the beating rod and a beating flower type block arranged on the beating spring; the working plate continues to move downwards, the working plate is in touch contact with the first beating rack, the first beating rack moves downwards and is meshed with the beating gear, the beating gear rotates and drives the second beating rack to move upwards, the beating rack drives the beating rod to move upwards, the beating rod drives the beating piston to move upwards, air pressure in the pipeline is beaten, the beating piston moves upwards, the beating piston drives the beating rod to move upwards, and the beating rod drives the pattern block to move upwards.

Through first rack and the gear mesh of beating for speed more stability that whole working process removed has guaranteed residue and product separation effect more, when flower type piece removed, makes to remove the vibrations pole that produces wave, makes to beat the effect better to the working plate surface, reduces the time that the staff made a round trip to clean, and the production line of section bar processing is more high-efficient.

The movable mechanism comprises a movable fixed plate, a movable rod penetrating through the movable fixed plate, a movable spring sleeved outside the movable rod and a movable turning plate arranged at the right end of the movable rod; the flower-shaped block moves downwards to collide with the movable rod, the movable rod moves to one side, and the movable rod and the movable turning plate move to one side to flap the surface of the working plate.

When carrying out to the side motion through the movable rod, the movable rod turns over board collision mutually with the activity, and the activity turns over the board and patts the work plate surface, prevents to be stained with the residue that attaches on the work plate and beats, under the effect of activity spring, aggravates the distance of movable rod round trip movement, and the vibrations pole of beating is aggravated for the clearance effect is more, and the efficiency of section bar processing improves, brings bigger economic benefits.

The adsorption mechanism comprises an adsorption groove, an adsorption long plate arranged in the adsorption groove, inclined ports arranged on the left side and the right side of the adsorption long plate, an adsorption channel arranged on the adsorption long plate, an adsorption rod arranged in the adsorption channel, an adsorption cover plate arranged on the adsorption rod, a sucker sleeved outside the adsorption rod, an adsorption spring sleeved outside the adsorption rod, and an unlocking mechanism arranged on the adsorption long plate; adsorb the work piece when the sucking disc, the working plate moves down, adsorbs the good work piece of cutting, and when the working plate carried out the upward movement, the long board that adsorbs carried out the rebound, adsorbs the long board and drives the absorption pole and carry out the rebound, adsorbs the pole and drives the absorption apron and carry out the rebound, and at this moment in gas entered into the sucking disc from the gap that adsorbs the apron removal, adsorbs not adsorbing the work piece at this moment.

Adsorb the product through the sucking disc, prevent when cutting the product, produce the phenomenon of removal, the sucking disc consolidates the adsorption affinity for more smooth and easy of cutting process, when adsorbing the apron and carrying out the downstream, drive and adsorb the stock and carry out the downstream, make and adsorb the apron and encrypt the sucking disc and plug up, prevent inside gas flow in sucking disc, consolidate the fastness, efficiency improves greatly.

The unlocking mechanism comprises unlocking channels arranged on the left side and the right side of the adsorption long rod, a first unlocking spring arranged in the unlocking channels, an unlocking slide block arranged in the unlocking channels, an unlocking opening arranged on the unlocking slide block, an unlocking channel arranged on the unlocking slide block on the left side, an unlocking long rod arranged in the unlocking channels, a second unlocking spring arranged on the left side and the right side of the unlocking long rod, a second-stage unlocking groove arranged below the unlocking slide block on the right side, a second-stage unlocking plate arranged in the second-stage unlocking groove, a second-stage unlocking spring arranged below the second-stage unlocking plate, a second-stage unlocking ejector rod arranged at the left end of the second-stage unlocking plate and a second-stage unlocking slide block arranged at the right end; the unblock stock carries out the downstream, the unblock stock touches with the unblock opening mutually, the unblock slider carries out to unblock passageway internal motion, the unblock slider does not contact with the absorption stock left end, the absorption stock takes place the inclined movement, the absorption stock left end upwards lifts up, right-hand member downstream, the one end of downstream touches with second grade unblock ejector pin mutually, second grade unblock ejector pin carries out the downstream and drives second grade unblock board left end downstream, right-hand member upstream drives second grade unblock slider and carries out the upstream, second grade unblock slider offsets with the unblock opening, the unblock slider of right-hand member carries out to removing the passageway, the unblock slider does not offset with the slope mouth, make the absorption stock carry out the upstream.

When carrying out the downstream through adsorbing the apron, when driving to adsorb the stock and carrying out the downstream, adsorb the stock and contact with the unblock slider, need not adsorb the stone with the product looks as the sucking disc, the unblock stock carries out the downstream and contacts with the unblock opening, the unblock slider does not contact with adsorbing the long slab, adsorb the long slab rebound, adsorb the long slab and drive the absorption pole and carry out the rebound, at this moment in the gas flow suction disc, the sucking disc is not adsorbed mutually with the product, moreover, the steam generator is simple in structure, high convenience and rapidness, the efficiency of section bar processing is greatly improved.

The cutting mechanism comprises electric tracks arranged on the front side and the rear side of the working plate, connecting rods arranged on the electric tracks, push plates arranged on the connecting rods, cutting tracks arranged on the front side and the rear side of the electric tracks and cutting machines arranged on the cutting tracks.

Realize automatic cutting, convenient simple swift to the work piece through the cutting machine, after the residue clearance finishes, the push pedal carries out the motion right, continues to push into the containing box to the product in, wholly realizes residue and product phase separation, saves the labour, has guaranteed operational environment's clean and tidy, has improved work efficiency.

In conclusion, the invention has the following advantages: according to the invention, after cutting is finished, the cut powder and finished products are automatically classified, and garbage is uniformly recovered and sorted, so that the working environment is clean and tidy, and the labor force is saved.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a left side view of the present invention.

Fig. 3 is a cross-sectional perspective view taken along a-a in fig. 2.

Fig. 4 is an enlarged view of a structure shown in fig. 3.

Fig. 5 is a cross-sectional perspective view taken along line B-B of fig. 2.

Fig. 6 is an enlarged view of the structure at B in fig. 5.

Fig. 7 is a cross-sectional perspective view taken along line C-C in fig. 2.

Fig. 8 is an enlarged view of the structure at C in fig. 7.

Fig. 9 is a front view of the present invention.

Fig. 10 is a cross-sectional perspective view taken along D-D in fig. 9.

Fig. 11 is an enlarged view of the structure at D in fig. 10.

Fig. 12 is a cross-sectional perspective view taken along D-D in fig. 9.

Fig. 13 is an enlarged view of the structure at E in fig. 12.

Fig. 14 is a second left side view of the present invention.

Fig. 15 is a cross-sectional perspective view taken along E-E in fig. 14.

Fig. 16 is an enlarged view of the structure at F in fig. 5.

Fig. 17 is an enlarged view of the structure at G in fig. 5.

Fig. 18 is an enlarged view of the structure at H in fig. 16.

Fig. 19 is an enlarged view of the structure at I in fig. 17.

Detailed Description

As shown in fig. 1-19, a multipurpose sectional material and a preparation process thereof, comprising the following steps:

a. fixing the aluminum profile, and cutting the aluminum profile by using a cutting device;

b. taking down the cut aluminum section, and placing the cutting end of the aluminum section right above the sand pool;

c. Connecting the flexible pipe by using a stamping pump, and aligning a sand outlet of the sand flowing pipe with the sand pool;

d. adding quicksand into the stamping pump, and starting the stamping pump until burrs on the aluminum profile are pushed out of the aluminum profile;

e. closing the stamping pump, and taking down the aluminum profile after the quicksand in the aluminum profile pipe completely flows out;

f. removing burrs of the pushed aluminum profile by using a deburring device;

using a deburring device to continuously carry out fine machining on the cutting end of the aluminum profile;

the cutting device comprises a case 1, a containing box 2, a cutting mechanism 3 and a moving mechanism 4; the containing box 2 is arranged at the right part of the case 1 and is fixedly connected with the case; the cutting mechanism 3 is arranged on the case 1; the moving mechanism 4 is arranged below the cutting mechanism 3.

The moving mechanism 4 comprises a working plate 40, an adsorption mechanism 41, a moving track 42, a moving connecting rod 43, a pulley 44, a moving pull rod 45, a moving cylinder 46, a blowing mechanism 5 and a beating mechanism 6; the working plate 40 is arranged at the upper part of the case 1; the adsorption mechanism 41 is arranged in the working plate 40; the number of the moving rails 42 is 2, the moving rails are respectively arranged at the front side and the rear side below the working plate 40 and are fixedly connected with the inside of the case 1; the movable connecting rod 43 is arranged on the movable rail 42 and moves on the movable rail 42; the pulley 44 is arranged at one end of the movable connecting rod 43 and is fixedly connected; the movable pull rod 45 is arranged at the other end of the movable connecting rod 43 and is fixedly connected with the other end of the movable connecting rod; the movable cylinder 46 is arranged below the movable pull rod 45 and is fixedly connected with the movable pull rod; the number of the purging mechanisms 5 is multiple, and the purging mechanisms are uniformly arranged on the left side of the movable cylinder 46 at intervals; the number of the beating mechanisms 6 is 2, and the beating mechanisms are respectively arranged on the left sides of the 2 moving tracks 42; the movable cylinder is started, the movable cylinder drives the movable pulling to move downwards, the movable pull rod drives the movable connecting rod to move downwards, the movable connecting rod drives the pulley to move on the movable rail, and the movable connecting rod drives the working plate to move simultaneously.

The purging mechanism 5 comprises a purging chamber 50, a rotating groove 51, a purging piston 52, a purging rod 53, a purging spring 54, a moving piston 55, a moving rod 56, a first moving spring 57, a moving rack 58, a moving groove 59, a second moving spring 590, a moving slider 591, a moving gear 592, a purging rotary disc 593, an inclined air outlet 594, a moving rotating shaft 595, a fixed disc 5951, an air outlet 596 and an inflating mechanism 7; the number of the purging cavities 50 is multiple, and the purging cavities are uniformly arranged on the left side of the movable cylinder 46 at intervals; the rotary groove 51 is arranged on the left side of the purging cavity 50; the purging piston 52 is arranged at one end in the purging cavity 50 and moves up and down in the purging cavity 50; one end of the purging rod 53 is fixedly connected to the purging piston 52, and the other end of the purging rod is conveyed out of the purging cavity 50 and is in contact with the working plate 40; one end of the purging spring 54 is sleeved outside the purging rod 53 and fixedly connected, and the other end of the purging spring is arranged on the purging cavity 50 and fixedly connected; the movable piston 55 is arranged at the other end in the purging cavity 50 and moves left and right in the purging cavity 50; one end of the moving rod 56 is arranged on the moving piston 55 and fixedly connected with the moving piston, and the other end of the moving rod penetrates out of the other end of the blowing cavity 50; one end of the first movable spring 57 is sleeved outside the movable rod 56 and fixedly connected with the movable rod; the movable rack 58 is arranged at the other end of the movable spring 57 and is fixedly connected with the movable rod 56; the moving groove 59 is arranged in the moving rack 58; one end of the second movable spring 590 is arranged in the movable groove 59 and fixedly connected with the movable groove; the movable sliding block 591 is arranged at the other end of the second movable spring 590 and is fixedly connected with the other end of the second movable spring 590, and the movable sliding block 591 moves back and forth in the movable groove 59; the moving gear 592 is disposed on one side of the moving rack 58; the purging rotary disc 593 is arranged below the movable gear 592 and fixedly connected with the movable gear 592; the number of the inclined air outlets 594 is multiple, and the inclined air outlets 594 are uniformly distributed in the circumferential direction of the blowing rotary disc 593; the movable rotating shaft 595 penetrates through the movable gear 592, one end of the movable rotating shaft 595 is fixedly connected with the purging turntable 593, the other end of the movable rotating shaft 595 penetrates out of the movable gear 592, and the movable rotating shaft 595 is of a hollow structure; the fixed disc 5951 is sleeved outside the movable rotating shaft 595 and is fixedly connected with the rotating groove 51; the number of the air outlet holes 596 is multiple, and the air outlet holes are uniformly arranged in the circumferential direction of the movable rotating shaft 595 at intervals; the inflating mechanism 7 is arranged on one side of the movable rack 58; when the working plate carries out the downstream, the working plate touches with the pole that sweeps, it carries out the rebound to sweep the pole, it drives to sweep the piston and carries out the rebound to sweep the pole, sweep the intracavity gas pressure grow for the movable piston carries out the rebound, the movable piston drives the movable rod and carries out the rebound, the movable rod drives the movable rack and carries out the rebound, the movable rack meshes with the moving gear mutually, the moving gear rotates, the moving gear drives and sweeps the carousel and rotate, also drive the removal pivot simultaneously and rotate, at this moment, it carries out rotatory jet-propelled to sweep the carousel.

The inflating mechanism 7 comprises an inflating channel 70, an inflating slide block 71, an inflating rod 72, a first inflating spring 73, an inflating moving plate 74, an inflating short rod 75, a second inflating spring 76 and an inflating piston 77; the inflating channel 70 is arranged on one side of the movable rack 58; the inflating slide block 71 is arranged in the inflating channel 70 to move up and down, and the inflating slide block 71 is contacted with the movable slide block 591; the inflating rod 72 is arranged on the inflating slide block 71 and is fixedly connected with the inflating slide block; the first inflating spring 73 is sleeved outside the inflating rod 72, one end of the first inflating spring is fixedly connected with the inflating slide block 71, and the other end of the first inflating spring is fixedly connected with the inflating channel 70; the inflating moving plate 74 is arranged on the inflating rod 72, the inflating rod 72 is in contact with one side of the inflating moving plate 74, and the inflating moving plate 74 moves obliquely; one end of the inflating short rod 75 is arranged below the inflating moving plate 74 and fixedly connected, and the other end of the inflating short rod penetrates out of the inflating channel 70 and extends into the moving rotating shaft 591; the second pumping spring 76 is sleeved outside the pumping short rod 75, one end of the second pumping spring is fixedly connected with the pumping short rod 75, and the other end of the second pumping spring is fixedly connected with the movable rotating shaft 591; the inflating piston 77 is fixedly connected with the lower part of the inflating short rod 75 and moves up and down in the moving rotating shaft 591; the movable rack moves leftwards, when the movable rack is in the position parallel to the inflating channel, the movable sliding block moves, the movable sliding block is in contact with the inflating sliding block, the inflating sliding block moves upwards, the inflating sliding block drives the inflating rod to move upwards, the inflating rod is in contact with one end of the inflating movable plate, the other end of the inflating movable plate moves downwards, one end of the inflating rod moves downwards to drive the inflating short rod to move downwards, the inflating short rod moves downwards to drive the inflating piston to move downwards, the air pressure in the movable rotating shaft is increased, and air is sprayed out from the air outlet hole.

The tapping mechanism 6 comprises a tapping groove 60, a tapping recovery groove 601, a first tapping rack 61, a first tapping spring 62, a tapping gear 63, a second tapping rack 64, a tapping duct 65, a movable groove 66, a movable mechanism 8, a tapping piston 67, a tapping rod 68, a second tapping spring 69, a tapping piston 690, a tapping rod 691, a tapping spring 692, and a tapping pattern block 693; the rapping recovery tank 601 is arranged at the lower part of the rapping tank 60 and is fixedly connected with the case 1; the first rapping rack 61 is arranged in the rapping groove 60 and moves up and down, and the first rapping rack 61 is in contact with the working plate 40; one end of the first rapping spring 62 is arranged on the first rapping rack 61 and fixedly connected with the first rapping spring, and the other end of the first rapping spring is arranged in the rapping groove 60 and fixedly connected with the first rapping rack; the beating gear 63 is arranged on the left side of the first beating rack 61, and the beating gear 63 is meshed with the first beating rack 61 and embedded in the beating groove 60 to rotate relatively; the second beating rack 64 is arranged on the left side of the beating gear 63, and the second beating rack 64 moves up and down in the beating groove 60; the beating pipeline 65 is arranged at the upper part of the second beating rack 64; the movable groove 66 is arranged on the beating pipeline 65; the movable mechanism 8 is arranged in the movable groove 66; the knocking piston 67 is arranged at one end in the knocking pipeline 65 and moves up and down; the knocking rod 68 is arranged on the knocking piston 67 and is fixedly connected with the knocking piston; the second rapping spring 69 is sleeved outside the rapping rod 68, one end of the second rapping spring is arranged on the second rapping rack 64 and fixedly connected with the second rapping rack, and the other end of the second rapping spring is arranged on the rapping groove 60 and fixedly connected with the second rapping rack; the flapping piston 690 is arranged at the other end in the flapping pipeline 65 and moves up and down; one end of the beating rod 691 is arranged on the beating piston 690 to be fixedly connected, and the other end of the beating rod 691 penetrates out of the beating pipeline 65 and extends into the movable groove 66; the flapping spring 692 is arranged outside the flapping rod 691, and one end of the flapping spring 692 is fixedly connected with the movable groove 66; the patting flower type block 693 is arranged at the other end of the patting spring 692 and is fixedly connected with the patting rod 691, and the patting flower type block 693 moves up and down in the movable groove 66; the working plate continues to move downwards, the working plate is in touch contact with the first beating rack, the first beating rack moves downwards and is meshed with the beating gear, the beating gear rotates and drives the second beating rack to move upwards, the beating rack drives the beating rod to move upwards, the beating rod drives the beating piston to move upwards, air pressure in the pipeline is beaten, the beating piston moves upwards, the beating piston drives the beating rod to move upwards, and the beating rod drives the pattern block to move upwards.

The movable mechanism 8 comprises a movable fixed plate 80, a movable rod 81, a movable spring 82 and a movable turning plate 83; the movable fixing plate 80 is fixedly connected with the movable groove 66; the movable rod 81 penetrates through the movable fixing plate 80 and moves left and right; one end of the movable spring 82 is arranged on the movable rod 81 and fixedly connected, and the other end is fixedly connected with the movable fixing plate 80; the movable turning plate 83 is arranged on the right side of the movable rod 81, and the upper end of the movable turning plate 83 is hinged with the movable groove 66; the flower-shaped block moves downwards to collide with the movable rod, the movable rod moves to one side, and the movable rod and the movable turning plate move to one side to flap the surface of the working plate.

The adsorption mechanism 41 comprises an adsorption groove 410, an adsorption long plate 411, an inclined port 412, an adsorption channel 413, an adsorption rod 414, an adsorption cover plate 415, a suction cup 416, an adsorption spring 417 and an unlocking mechanism 10; the adsorption long plate 411 is arranged in the adsorption groove 410; the number of the inclined ports 412 is 2, and the inclined ports are respectively arranged on the left side and the right side of the long adsorption plate 411; the number of the adsorption channels 413 is multiple, and the adsorption channels are uniformly arranged on the upper part of the adsorption long plate 411; the adsorption rod 414 is arranged in the adsorption channel 413 in a penetrating way and can move up and down, and one end of the adsorption rod is fixedly connected with the adsorption long plate 411; the adsorption cover plate 415 is arranged at the other end of the adsorption rod 414 and is fixedly connected with the other end; the suction cup 416 is sleeved outside the suction rod 414; the adsorption spring 417 is sleeved outside the adsorption rod 414, one end of the adsorption spring is fixedly connected with the adsorption long plate 411, and the other end of the adsorption spring is fixedly connected with the adsorption channel 413; the unlocking mechanism 10 is arranged on the long adsorption plate 411; adsorb the work piece when the sucking disc, the working plate moves down, adsorbs the good work piece of cutting, and when the working plate carried out the upward movement, the long board that adsorbs carried out the rebound, adsorbs the long board and drives the absorption pole and carry out the rebound, adsorbs the pole and drives the absorption apron and carry out the rebound, and at this moment in gas entered into the sucking disc from the gap that adsorbs the apron removal, adsorbs not adsorbing the work piece at this moment.

The unlocking mechanism 10 comprises an unlocking channel 100, a first unlocking spring 101, an unlocking slide block 102, an unlocking opening 103, an unlocking channel 104, an unlocking long rod 105, a second unlocking spring 106, a secondary unlocking groove 107, a secondary unlocking plate 108, a secondary unlocking spring 109, a secondary unlocking ejector rod 110 and a secondary unlocking slide block 111; one end of the first unlocking spring 101 is arranged in the unlocking channel 100 and fixedly connected with the unlocking channel; the unlocking slide block 102 is arranged at the other end of the first unlocking spring 101, is fixedly connected and moves left and right in the unlocking channel 100, and the unlocking slide block 102 is in contact with the inclined port 412; the unlocking opening 103 is arranged on the unlocking slide block 102; the unlocking channel 104 is arranged on the left unlocking slide block 102; the unlocking long rod 105 is arranged in the unlocking channel 104 and moves up and down; the number of the second unlocking springs 106 is 2, one end of each second unlocking spring is respectively arranged at the left side and the right side of the lower part of the unlocking long rod 105 and fixedly connected, and the other end of each second unlocking spring is arranged on the unlocking channel 104 and fixedly connected; the secondary unlocking groove 107 is arranged below the right unlocking slide block 102; the secondary unlocking plate 108 is arranged in the secondary unlocking groove 107, the middle part of the secondary unlocking plate is movably connected with the secondary unlocking groove 107, and the secondary unlocking plate 108 moves obliquely in the secondary unlocking groove 107; the number of the secondary unlocking springs 109 is 2, and the secondary unlocking springs are respectively arranged on the secondary unlocking plate 108 at one end and fixedly connected with the secondary unlocking plate, and the other end of the secondary unlocking springs is arranged on the secondary unlocking groove 107 and fixedly connected with the secondary unlocking groove; the secondary unlocking ejector rod 110 is arranged at the upper left end of the secondary unlocking plate 108, and the adsorption long plate 411 is in contact with the secondary unlocking ejector rod 110; the secondary unlocking slide block 111 is arranged at the right end of the secondary unlocking plate 108 and is fixedly connected with the secondary unlocking opening 103 and is abutted against the secondary unlocking plate; the unblock stock carries out the downstream, the unblock stock touches with the unblock opening mutually, the unblock slider carries out to unblock passageway internal motion, the unblock slider does not contact with the absorption stock left end, the absorption stock takes place the inclined movement, the absorption stock left end upwards lifts up, right-hand member downstream, the one end of downstream touches with second grade unblock ejector pin mutually, second grade unblock ejector pin carries out the downstream and drives second grade unblock board left end downstream, right-hand member upstream drives second grade unblock slider and carries out the upstream, second grade unblock slider offsets with the unblock opening, the unblock slider of right-hand member carries out to removing the passageway, the unblock slider does not offset with the slope mouth, make the absorption stock carry out the upstream.

The cutting mechanism 3 comprises an electric track 30, a connecting rod 31, a push plate 32, a cutting track 33 and a cutting machine 34; the number of the electric tracks 30 is 2, the electric tracks are respectively arranged on the front side and the rear side of the working plate 40 and are fixedly connected with the case 1; the connecting rod 31 is arranged on the electric track 30 and moves left and right; the push plate 32 is arranged on the connecting rod 31 and fixedly connected with the connecting rod, and the push plate 32 is abutted against the unlocking long rod 105; the number of the cutting rails 33 is 2, the cutting rails are respectively arranged on the front side and the rear side of the electric rail 30 and are fixedly connected with the case 1; the cutting machine 34 is arranged on the cutting track 33 and moves left and right; start the cutting machine and cut work, electronic track drives the connecting rod and removes, and the connecting rod drives the push pedal and removes, and the push pedal touches with the unblock stock mutually.

A specific work flow; cutting machine 34 cuts the section bar, the back of cutting finishes moves cylinder 46 and drives work board 40 and move down, touch with blowing rod 53 during the downward movement, blowing rod 53 thereby drives blowing mechanism 5 and rotates the jet-propelled, when work board 40 continues the downward movement, touch with first rapping rack 61, make first rapping rack 61 drive rapping mechanism 6 and move, thereby it beats to drive the movable board 83 that turns over to beat the residue on work board 40, fall into rapping recovery tank 601, when work board 40 carries out the upward movement, start electronic track, electronic track drives push pedal 32 and carries out from a left side to a right side motion, push pedal 32 touches with stock unblock 105 mutually, sucking disc 416 does not adsorb with the section bar this moment, finished product oil push pedal 32 pushes down in containing box 2.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. A processing technology of multipurpose sectional materials is characterized in that: the method comprises the following steps:

fixing the aluminum profile, and cutting the aluminum profile by using a cutting device;

taking down the cut aluminum section, and placing the cutting end of the aluminum section right above the sand pool;

connecting the flexible pipe by using a stamping pump, and aligning a sand outlet of the sand flowing pipe with the sand pool;

adding quicksand into the stamping pump, and starting the stamping pump until burrs on the aluminum profile are pushed out of the aluminum profile;

closing the stamping pump, and taking down the aluminum profile after the quicksand in the aluminum profile pipe completely flows out;

removing burrs of the pushed aluminum profile by using a deburring device;

using a deburring device to continuously carry out fine machining on the cutting end of the aluminum profile;

the cutting device in the step a comprises a case (1), a containing box (2) arranged on the case (1), a cutting mechanism (3) arranged on the case (1), and a moving mechanism (4) arranged below the cutting mechanism (3); the moving mechanism (4) comprises a working plate (40), an adsorption mechanism (41) arranged in the working plate (40), moving rails (42) arranged on the front side and the rear side of the lower portion of the working plate (40), a moving connecting rod (43) arranged on the moving rails (42), a pulley (44) arranged at one end of the moving connecting rod (43), a moving pull rod (45) arranged at the other end of the moving connecting rod (43), a moving cylinder (46) arranged below the moving pull rod (45), a plurality of purging mechanisms (5) arranged on one side of the moving cylinder (46) and a knocking mechanism (6) arranged on one side of the purging mechanisms (5); the movable cylinder is started, the movable cylinder drives the movable pulling to move downwards, the movable pull rod drives the movable connecting rod to move downwards, the movable connecting rod drives the pulley to move on the movable rail, and the movable connecting rod drives the working plate to move simultaneously.

2. The process for manufacturing a multipurpose profile according to claim 1, wherein the process comprises the following steps: the purging mechanism (5) comprises a purging cavity (50), a rotating groove (51) arranged on one side of the purging cavity (50), a purging piston (52) arranged at one end in the purging cavity (50), a purging rod (53) arranged on the purging piston (52), a purging spring (54) sleeved outside the purging rod (53), a moving piston (55) arranged at the other end in the purging cavity (50), a moving rod (56) arranged on the moving piston (55), a first moving spring (57) sleeved outside the moving rod (56), a moving rack (58) arranged on the moving spring (57), a moving groove (59) arranged in the moving rack (58), a second moving spring (590) arranged in the moving groove (59), a moving slider (591) arranged on the second moving spring (590), a moving gear (592) arranged on one side of the moving rack (58), a purging turntable (593) arranged below the moving gear (592), An inclined air outlet (594) arranged in the circumferential direction of the purging rotary disc (593), a moving rotating shaft (595) penetrating the moving gear (592), a plurality of air outlet holes (596) arranged in the circumferential direction of the moving rotating shaft (595) and an inflating mechanism (7) arranged on one side of the moving rack (58); when the working plate carries out the downstream, the working plate touches with the pole that sweeps, it carries out the rebound to sweep the pole, it drives to sweep the piston and carries out the rebound to sweep the pole, sweep the intracavity gas pressure grow for the movable piston carries out the rebound, the movable piston drives the movable rod and carries out the rebound, the movable rod drives the movable rack and carries out the rebound, the movable rack meshes with the moving gear mutually, the moving gear rotates, the moving gear drives and sweeps the carousel and rotate, also drive the removal pivot simultaneously and rotate, at this moment, it carries out rotatory jet-propelled to sweep the carousel.

3. The process for manufacturing a multipurpose profile according to claim 2, wherein the process comprises the following steps: the inflating mechanism (7) comprises an inflating channel (70), an inflating slide block (71) arranged in the inflating channel (70), an inflating rod (72) arranged on the inflating slide block (71), a first inflating spring (73) sleeved outside the inflating rod (72), an inflating moving plate (74) arranged on the inflating rod (72), an inflating short rod (75) arranged below the inflating moving plate (74), a second inflating spring (76) sleeved outside the inflating short rod (75) and an inflating piston (77) arranged on the inflating short rod (75); the movable rack moves leftwards, when the movable rack is in the position parallel to the inflating channel, the movable sliding block moves, the movable sliding block is in contact with the inflating sliding block, the inflating sliding block moves upwards, the inflating sliding block drives the inflating rod to move upwards, the inflating rod is in contact with one end of the inflating movable plate, the other end of the inflating movable plate moves downwards, one end of the inflating rod moves downwards to drive the inflating short rod to move downwards, the inflating short rod moves downwards to drive the inflating piston to move downwards, the air pressure in the movable rotating shaft is increased, and air is sprayed out from the air outlet hole.

4. The process for manufacturing a multipurpose profile according to claim 1, wherein the process comprises the following steps: the rapping mechanism (6) comprises a rapping groove (60), a rapping recovery groove (601) arranged below the rapping groove (60), a first rapping rack (61) arranged in the rapping groove (60), a first rapping spring (62) arranged on the first rapping rack (61), a rapping gear (63) arranged on one side of the first rapping rack (61), a second rapping rack (64) arranged on one side of the rapping gear (63), a rapping pipe (65) arranged on the second rapping rack (64), a movable groove (66) arranged on the rapping pipe (65), a movable mechanism (8) arranged in the movable groove (66), a rapping piston (67) arranged at one end in the rapping pipe (65), a rapping rod (68) arranged on the rapping piston (67), a second rapping spring (69) sleeved outside the rapping rod (68), and a rapping piston (690) and a rapping rod (690) arranged at the other end in the rapping pipe (65), A patting spring (692) arranged on the patting piston (690) and sleeved outside the patting rod (691) and a patting flower-shaped block (693) arranged on the patting spring (692); the working plate continues to move downwards, the working plate is in touch contact with the first beating rack, the first beating rack moves downwards and is meshed with the beating gear, the beating gear rotates and drives the second beating rack to move upwards, the beating rack drives the beating rod to move upwards, the beating rod drives the beating piston to move upwards, air pressure in the pipeline is beaten, the beating piston moves upwards, the beating piston drives the beating rod to move upwards, and the beating rod drives the pattern block to move upwards.

5. The processing technology of the multipurpose profile according to claim 4, wherein the processing technology comprises the following steps: the movable mechanism (8) comprises a movable fixed plate (80), a movable rod (81) penetrating through the movable fixed plate (80), a movable spring (82) sleeved outside the movable rod (81) and a movable turning plate (83) arranged at the right end of the movable rod (81); the flower-shaped block moves downwards to collide with the movable rod, the movable rod moves to one side, and the movable rod and the movable turning plate move to one side to flap the surface of the working plate.

6. The process for manufacturing a multipurpose profile according to claim 1, wherein the process comprises the following steps: the adsorption mechanism (41) comprises an adsorption groove (410), an adsorption long plate (411) arranged in the adsorption groove (410), inclined ports (412) arranged at the left side and the right side of the adsorption long plate (411), an adsorption channel (413) arranged on the adsorption long plate (411), an adsorption rod (414) arranged in the adsorption channel (413), an adsorption cover plate (415) arranged on the adsorption rod (414), a suction disc (416) sleeved outside the adsorption rod (414), an adsorption spring (417) sleeved outside the adsorption rod (414), and an unlocking mechanism (10) arranged on the adsorption long plate (411); adsorb the work piece when the sucking disc, the working plate moves down, adsorbs the good work piece of cutting, and when the working plate carried out the upward movement, the long board that adsorbs carried out the rebound, adsorbs the long board and drives the absorption pole and carry out the rebound, adsorbs the pole and drives the absorption apron and carry out the rebound, and at this moment in gas entered into the sucking disc from the gap that adsorbs the apron removal, adsorbs not adsorbing the work piece at this moment.

7. The processing technology of the multipurpose sectional material according to claim 6, wherein the unlocking mechanism (10) comprises unlocking passages (100) arranged on the left side and the right side of the long adsorption rod (411), first unlocking springs (101) arranged in the unlocking passages (100), unlocking sliders (102) arranged in the unlocking passages (101), unlocking openings (103) arranged on the unlocking sliders (102), unlocking passages (104) arranged on the unlocking sliders (102) on the left side, unlocking long rods (105) arranged in the unlocking passages (104), second unlocking springs (106) arranged on the left side and the right side of the unlocking long rods (105), second unlocking grooves (107) arranged below the unlocking sliders (102) on the right side, second unlocking plates (108) arranged in the second unlocking grooves (107), second unlocking springs (109) arranged below the second unlocking plates (108), second unlocking ejector rods (110) arranged at the left ends of the second unlocking plates (108), and right unlocking plates (108) A secondary unlocking slider (111) at the end; the unblock stock carries out the downstream, the unblock stock touches with the unblock opening mutually, the unblock slider carries out to unblock passageway internal motion, the unblock slider does not contact with the absorption stock left end, the absorption stock takes place the inclined movement, the absorption stock left end upwards lifts up, right-hand member downstream, the one end of downstream touches with second grade unblock ejector pin mutually, second grade unblock ejector pin carries out the downstream and drives second grade unblock board left end downstream, right-hand member upstream drives second grade unblock slider and carries out the upstream, second grade unblock slider offsets with the unblock opening, the unblock slider of right-hand member carries out to removing the passageway, the unblock slider does not offset with the slope mouth, make the absorption stock carry out the upstream.

8. The process for manufacturing a multipurpose profile according to claim 1, wherein the process comprises the following steps: the cutting mechanism (3) comprises electric tracks (30) arranged on the front side and the rear side of the working plate (40), a connecting rod (31) arranged on the electric tracks (30), a push plate (32) arranged on the connecting rod (31), cutting tracks (33) arranged on the front side and the rear side of the electric tracks (30) and a cutting machine (34) arranged on the cutting tracks (33); start the cutting machine and cut work, electronic track drives the connecting rod and removes, and the connecting rod drives the push pedal and removes, and the push pedal touches with the unblock stock mutually.

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