Summary of the invention
Technical problem to be solved by this invention is for above-mentioned prior art present situation, and a kind of flap process equipment of automatically processing ribbon ring on flap face is provided.
The present invention solves the problems of the technologies described above adopted technical scheme: a kind of flap process equipment, comprise sewing mechanism, for delivery of the material guide mechanism of ribbon with for the material stacking mechanism of folding ribbon, material stacking mechanism comprises for placing the folded material gripper shoe of ribbon section, above folded material gripper shoe, be provided with the binder part that can move up and down, in the both sides of binder part, be respectively equipped with the folding material cylinder that can move up and down, the drive rod of folding material cylinder is connected with the folding flitch of energy horizontal movement.
For optimizing technique scheme, the present invention also comprises following improved technical scheme.
Above-mentioned folded material gripper shoe is fixed on folded material support, and folded material support is provided with the folded material drive plate that can move up and down, and folding material cylinder is fixed on folded material drive plate.
Above-mentioned binder part can be connected with folded material drive plate, by folded material drive plate, drives binder part decline binder.
Above-mentioned binder part can also be connected with the binder cylinder on folded material support, by binder air cylinder driven binder part binder.
Above-mentioned binder part comprises the binder substrate that can move up and down, and the elastic material body being connected with binder substrate; Binder substrate is connected with the drive rod of binder cylinder.
Above-mentioned binder substrate is provided with the reason material axle that can rotate, and fixes reasonable material bar and the arc drive rod for driving reason material axle to rotate on reason material axle.
Above-mentioned folded material gripper shoe comprises body supports plate and is positioned at the auxiliary support bar of plate main body both sides.
One side of above-mentioned material stacking mechanism is provided with rotary cylinder, and the rotating base of rotary cylinder is provided with feeding cylinder, and feeding cylinder is connected with the feeding arm of energy horizontal movement, is provided with for clamping the chuck at ribbon section two ends on feeding arm.
One side of above-mentioned sewing mechanism is provided with for clamping the clamping plate of flap and driving cylinder for the flap that drives clamping plate that flap is delivered to sewing position place.
Above-mentioned sewing mechanism is provided with ribbon section is pressed in to the presser feet on flap face.
Above-mentioned flap is fixed by clamping plate and is driven cylinder to deliver to sewing position by flap; Ribbon is delivered in folded material gripper shoe by material guide mechanism and is cut the ribbon section of preseting length; Ribbon section after material stacking mechanism is folding, two ends of clamping ribbon by chuck, and move on the ribbon Duan Fangzhi flap after folding by rotary cylinder.
Compared with prior art, flap process equipment of the present invention, by material guide mechanism automatic feed, by fold mechanism by the two ends auto-folder of ribbon section, and the ribbon section after folding is placed on flap face and is sewed, whole process only needs manually to place flap, and other procedure of processings are all completed automatically by flap process equipment, greatly improve working (machining) efficiency, reduced human cost.
The specific embodiment
Below in conjunction with accompanying drawing, embodiments of the invention are described in further detail.
Fig. 1 is to Figure 7 shows that structural representation of the present invention.
Reference numeral is wherein: sewing mechanism 1, folding material cylinder 2, folding flitch 3, folded material support 4, folded material drive plate 5, binder cylinder 6, binder substrate 7, elastic material body 8, reason material axle 9, reason material bar 10, arc drive rod 11, body supports plate 12, auxiliary support bar 13, regulating block 14, cylinder mounting plate 15, folded material cylinder 16, rotary cylinder 21, rotating base 22, feeding cylinder 23, feeding arm 24, chuck 25, lift cylinder 26, lifting drive plate 27, material folding cylinder 28, flap drives cylinder 32, glide base 33, flap feeding guide 34, bottom plate 35, top board 36, clamping plate cylinder 37, feed lead rail 41, charging gear 42, cutting knife 43, winding reel 44, active-feeding wheel 45, auxiliary feeding wheel 46, auxiliary charging motor 47, sub-arm 48, spring 49, regulating block 50, gear arm 51, charging motor 52, inductor support 53, cutting knife cylinder 54, charging spring 55, presser feet 56.
Flap process equipment of the present invention, comprises sewing mechanism 1, for delivery of the material guide mechanism of ribbon with for the material stacking mechanism of folding ribbon.Flap is fixed by clamping plate, and logical flap drives cylinder 32 the fixing flap of clamping plate to be delivered to the sewing position place of sewing mechanism 1.Ribbon carries the ribbon section of preseting length to material stacking mechanism place by material guide mechanism, after material stacking mechanism is folding by the two ends of ribbon section, be placed on the flap face at sewing position place, finally by the presser feet 56 of sewing mechanism 1, is pushed down flap and ribbon section and is sewed.
Material guide mechanism as shown in Figures 2 and 3.Material guide mechanism comprises feed lead rail 41, is provided with by the motor-driven charging gear 42 of charging in feed lead rail 41, at the discharging opening of feed lead rail 41, is provided with the cutting knife 43 for blank.
Feed lead rail 41 is provided with for adjusting the regulating block 50 of guide rail width, can adjust the width of feed lead rail 41, adapts to the ribbon of different in width.
Charging gear 42 is arranged on the gear arm 51 that can rotate, and this gear arm 51 is connected with charging spring 55.The ribbon that makes the charging gear 42 on gear arm 51 compress in feed lead rail 41 under the active force of charging spring 55.
Charging gear 42 is connected with charging motor 52 by driving chain, by controlling the anglec of rotation of charging motor 52, just can control the ribbon length of charging gear 42 outputs.
Cutting knife in the present embodiment 43 adopts fervent mechanisms, and controls that cutting knifes 43 approach or away from the ribbon of discharging opening by cutting knife cylinder 54.After the ribbon section of charging gear 42 output preseting lengths, cutting knife cylinder 54 control cutting knifes 43 approach ribbon cuts the ribbon section of output.The present invention also can adopt mechanical cutter mechanism, cuts off the ribbon of discharging opening by air cylinder driven cutting edge.
In frame, be provided with the winding reel 44 of placing rolling ribbon.After being drawn out, rolling ribbon enters in feed lead rail 41 through active-feeding wheel 45 and auxiliary feeding wheel 46.Active-feeding wheel 45 is driven and is rotated by auxiliary charging motor 47.Auxiliary feeding wheel 46 is arranged on the sub-arm 48 that can rotate, and makes auxiliary feeding wheel 46 compress active-feeding wheel 45 by spring 49 effects.
Auxiliary charging motor 47 drives active-feeding wheel 45 to carry in advance one section of ribbon, and the ribbon of carrying in advance can be suspended between feed lead rail 41 and active-feeding wheel 45, facilitates feed lead rail 41 chargings.Between feed lead rail 41 and active-feeding wheel 45, be provided with inductor support 53, and the inductor that detects ribbon suspension length is installed.When feed lead rail 41 has been inputted after the ribbon of carrying in advance, the auxiliary charging motor 47 of inductor notice is carried one section of ribbon again in advance.
As shown in Figure 4 and Figure 5, material stacking mechanism comprises for placing the folded material gripper shoe of ribbon section.Folded material gripper shoe is fixed on folded material support 4.In the present embodiment, folded material gripper shoe comprises body supports plate 12 and is positioned at the auxiliary support bar 13 of body supports plate 12 both sides.Auxiliary support bar 13 is arranged on independently on regulating block 14, by mobile regulating block, can adjust the distance between auxiliary support bar 13 and body supports plate 12.
Above folded material gripper shoe, be provided with the binder part that can move up and down, be respectively equipped with the folding material cylinder 2 that can move up and down in the both sides of binder part, the drive rod of described folding material cylinder 2 is connected with the folding flitch 3 of energy horizontal movement.
Folded material support 4 is fitted with the folded material drive plate 5 that can move up and down, and folded material drive plate 5 is driven by folded material cylinder 16.Folding material cylinder 2 is fixed on folded material drive plate 5, by folded material drive plate 5, drives two folding material cylinders 2 to move up and down.
Binder part can directly be connected with folded material drive plate 5, by folded material drive plate 5, drives it to move up and down, and also can be connected with binder cylinder 6, by binder cylinder 6, drives it to move up and down.The mode that preferred embodiment adopts binder cylinder 6 to drive binder part to move up and down.
Binder part comprises a binder substrate 7 that can move up and down, and the elastic material body 8 being connected with binder substrate 7.Binder substrate 7 is connected with the drive rod of binder cylinder 6.Elastic material body 8 is one and on binder substrate 7, is fixed with spring conductor rod for the binder spring of binder, and binder spring is connected with spring conductor rod.
Binder substrate 7 is provided with the reason material axle 9 that can rotate, and fixes reasonable material bar 10 and the arc drive rod 11 for driving reason material axle 9 to rotate on reason material axle 9.Arc drive rod 11 is located in the through hole of cylinder mounting plate 15.When binder cylinder 6 drives binder substrate 7 to move downward, arc drive rod 11 just can drive reason material axle 9 to rotate.
Ribbon section is delivered to after folded material gripper shoe, binder cylinder 6 drives binder part to decline, in decline process, arc drive rod 11 drives reason material bar 10 towards folded ribbon section motion of expecting in gripper shoe, make the ribbon fragment position alignment in folded material gripper shoe, elastic material body 8 coordinates fixedly ribbon section of body supports plate 12 afterwards.Then folded material cylinder 16 declines with the folding material cylinder 2 on fold material drive plate 5, make to roll over flitch 3 along the two ends of the outside decline bending ribbon section of two auxiliary support bars 13, so latter two folding material cylinder 2 drives respectively folding flitch 3 to draw close to centre, makes two sections of ribbon section centre is folded.
One side of material stacking mechanism is provided with rotary cylinder 21.The rotating base 22 of rotary cylinder 21 is provided with feeding cylinder 23, and described feeding cylinder 23 is connected with the feeding arm 24 of energy horizontal movement, is provided with for clamping the chuck 25 at ribbon section two ends on feeding arm 24.In order to facilitate chuck 25 material foldings and blowing, lift cylinder 26 can be installed in end at feeding arm 24, lift cylinder 26 is connected with 27, two chucks 25 of lifting drive plate and is arranged on lifting drive plate 27, by lifting drive plate 27, can move up and down with respect to feeding arm 24.
Distance between two chucks 25 can regulate by installation, to adapt to the ribbon section of different length.By controlling material folding cylinder 28 duties, just can automatically control the switching of chuck 25.
After ribbon section folds, feeding cylinder 23 drives two chucks 25 to move between corresponding auxiliary support bar 13 and body supports plate 12, clamps the two ends of ribbon section.Rotary cylinder 21 drives 24 rotations of feeding arm, then drives chuck 25 that ribbon section is delivered to sewing position place by feeding cylinder 23.Lift cylinder 26 drives lifting drive plate 27 and chuck 25 to decline, and folding ribbon section is placed on flap face.
As shown in Figure 6 and Figure 7, a side of sewing mechanism 1 is provided with for clamping the clamping plate of flap and driving cylinder 32 for the flap that drives clamping plate that flap is delivered to sewing position place.Flap drives cylinder 32 to be connected with glide base 33, and glide base 33 is slidably arranged on flap feeding guide 34.
Clamping plate comprise the bottom plate 35 being arranged on glide base 33 and the top board 36 that can rotate, and drive top board 36 rotations that flap is pressed on bottom plate 35 by clamping plate cylinder 37.Flap is placed into behind clamping plate place, and clamping plate are flap fixedly, and then flap drives cylinder 32 to drive clamping plate motion, and flap is delivered to sewing position place.
Sewing mechanism 1 is provided with ribbon section is pressed in to the presser feet 56 on flap face.After ribbon section after folding is put on flap face, presser feet 56 is flap and ribbon section fixedly, after clamping plate and chuck 25 are withdrawn, by Sewing machines mechanism, the two ends of ribbon section and flap is sewed up.
Most preferred embodiment of the present invention is illustrated, and the various variations of being made by those of ordinary skills or remodeling can not depart from the scope of the present invention.