A kind of yarn bag machine
Technical field
The present invention relates to a kind of yarn bag machine, relate in particular to and a kind ofly can automatically finish the yarn bag machine of making.
Background technology
The yarn bag is a kind of common articles for use in the daily life, demand is larger, the production procedure of yarn bag is such in the existing production technology: at first operating personnel have sewed up the two ends of fabric with Sewing machines, then according to the length of the big or small cutting fabric of required yarn bag, then the two ends of sewing up again fabric after the fabric doubling, such yarn bag has just machined, although such technological process of production can be finished the production of yarn bag, but exist some obvious shortcomings, at first such production method, workman's labour intensity is high, fatiguability after operating time is long causes the production efficiency of product to improve, and secondly its production cost is also high, be not suitable for the product of production in enormous quantities, the output value of product can't reach maximization.
Summary of the invention
Technical problem for above-mentioned existence the objective of the invention is: proposed a kind of yarn bag machine that can realize automatically that the yarn bag is made.
Technical solution of the present invention is achieved in that a kind of yarn bag machine, comprises pay-off, the first processing unit (plant) and the second processing unit (plant); Described pay-off, the first processing unit (plant) and the second processing unit (plant) be relative fixed placement successively; Described pay-off is sent to fabric in the first processing unit (plant); The fabric two ends that described the first processing unit (plant) is sent pay-off are sewed up; Described the second processing unit (plant) is to sewing up the fabric two ends after the fabric elder generation doubling out of the first processing unit (plant) again.
Preferably, described pay-off comprises feeding frame, locating back, support and slide; Described feeding frame one side is provided with locating back, and the opposite side two ends are provided with support; Have groove on the described support; Described slide is stuck in the support by groove.
Preferably, described the first processing unit (plant) comprises synchronous rubber roll and the MULTI NEEDLE FLAT AEWING MACHINE that is positioned on the first frame; Described synchronous rubber roll is positioned at the rear of MULTI NEEDLE FLAT AEWING MACHINE.
Preferably, described the second processing unit (plant) comprises the second frame, cutting mechanism, hold-down mechanism, air-flotation system, flap mechanism and transmits sewing mechanism; Described cutting mechanism, hold-down mechanism, air-flotation system, flap mechanism and transmission sewing mechanism are positioned on the second frame; Described shear is sheared fabric; Described hold-down mechanism, air-flotation system and flap mechanism cooperatively interact to carry out doubling processing from shear fabric out; The fabric of described transmission sewing mechanism after with doubling carried and processed.
Preferably, described cutting mechanism comprises bracing frame, feeding tugboat, cutting knife slide rail, cutter motor frame, cutter motor, round cutter, cutting knife optical inductor, drag chain and Timing Belt; Support frame as described above is provided with the cutting knife slide rail; Support frame as described above is provided with the feeding tugboat that is positioned at cutting knife slide rail below; Described cutting knife slide rail is provided with the cutter motor frame; Described cutter motor frame both sides are respectively equipped with cutter motor and round cutter; Described cutter motor and round cutter with between be connected by Timing Belt; Described cutter motor links to each other with drag chain; The support frame as described above two ends also are respectively equipped with the cutting knife optical inductor.
Preferably, described flap mechanism comprises push pedal cylinder, feeding slide rail, plaiting push pedal, double stroke cylinder and electromagnet; Described push pedal cylinder is fixedly installed on the second frame; Described push pedal cylinder is provided with the feeding slide rail; Described feeding slide rail below is provided with the plaiting push pedal; Described feeding slide rail top also is provided with double stroke cylinder; Described double stroke cylinder one end is provided with electromagnet.
Preferably, described hold-down mechanism comprises fixed head, the first slide rail, doubling cylinder, the second slide rail, plaiting plate bracket, plaiting pressing plate, air cylinder support and cylinder; Described fixed head is arranged on the second frame; Described fixed head is provided with the first slide rail; Described the first slide rail is provided with the doubling cylinder that can slide up and down; Described doubling cylinder is provided with the second slide rail; Described the second slide rail is provided with slidably plaiting plate bracket; Described plaiting plate bracket is provided with the plaiting pressing plate; Also be provided with air cylinder support on the described fixed head; Described air cylinder support is provided with cylinder; Described cylinder passes air cylinder support and is arranged on the plaiting plate bracket.
Preferably, described transmission sewing mechanism comprises conveyer chain frame, synchronous roller, electric rotating machine, swing manipulator, feeding Timing Belt, flat seam machine, head optical inductor and finished product basket; Described the second frame is provided with two conveyer chain frames of relative fixed placement; Described conveyer chain frame is provided with a plurality of synchronous rollers; Also be provided with on the described conveyer chain frame and can make the swing manipulator that swings up and down by electric rotating machine; Connect by the feeding Timing Belt between described swing manipulator and the synchronous roller; Described flat seam machine is positioned at the conveyer chain frame; The described flat seam machine of stating is provided with the head optical inductor; Described finished product basket is arranged on the flat seam machine rear.
Because the utilization of technique scheme, the present invention compared with prior art has following advantages:
A kind of yarn bag machine of the present invention program, fabric is sent to the first processing unit (plant) by pay-off the fabric two ends is sewed up, and then by cutting mechanism fabric is sheared, follow hold-down mechanism, air-flotation system and flap mechanism work in coordination the fabric of having sheared are carried out doubling processing, transmit and process by transmitting sewing mechanism again, finish at last product, yarn bag machine of the present invention has replaced manually-operated to carry out the production of yarn bag by mechanical automation, the labour intensity that greatly reduces the workman is high, can realize aborning the production model of people's multimachine, improved the production efficiency of product, reduced production cost, be convenient to produce and effectively manage, so that the output value of product can reach maximization.
Description of drawings
Below in conjunction with accompanying drawing technical solution of the present invention is described further:
Accompanying drawing 1 is the perspective view of yarn bag machine of the present invention;
Accompanying drawing 2 is the partial enlarged drawing of A;
Accompanying drawing 3 is the partial enlarged drawing of B;
Accompanying drawing 4 is the partial enlarged drawing of C;
Accompanying drawing 5 is the partial enlarged drawing of D;
Accompanying drawing 6 is the partial enlarged drawing of E;
Wherein: 1, feeding frame; 2, locating back; 3, support; 4, slide; 5, groove; 6, the first frame; 7, MULTI NEEDLE FLAT AEWING MACHINE; 8, synchronous rubber roll; 9, the second frame; 10, bracing frame; 11, feeding tugboat; 12, flat seam machine; 13, finished product basket; 14, cutting knife slide rail; 15, cutter motor frame; 16, cutter motor; 17, round cutter; 18, drag chain; 19, Timing Belt; 20, plaiting push pedal; 21, push pedal cylinder; 22, air-flotation system; 23, electromagnet; 24, double stroke cylinder; 25, feeding slide rail; 26, fixed head; 27, the first slide rail; 28, doubling cylinder; 29, the second slide rail; 30, plaiting plate bracket; 31, plaiting pressing plate; 32, air cylinder support; 33, cylinder; 34, conveyer chain frame; 35, synchronous roller; 36, electric rotating machine; 37, swing manipulator; 38, feeding Timing Belt; 39, cutting knife optical inductor; 40, head optical inductor.
The specific embodiment
Below in conjunction with accompanying drawing the present invention is described.
Of the present invention a kind of yarn bag machine shown in accompanying drawing 1-6, a kind of yarn bag machine comprises pay-off, the first processing unit (plant) and the second processing unit (plant); Described pay-off, the first processing unit (plant) and the second processing unit (plant) be relative fixed placement successively; Described pay-off is sent to fabric in the first processing unit (plant); The fabric two ends that described the first processing unit (plant) is sent pay-off are sewed up; Described the second processing unit (plant) is to sewing up the fabric two ends after the fabric elder generation doubling out of the first processing unit (plant) again; Described pay-off comprises feeding frame 1, locating back 2, support 3 and slide 4; Described feeding frame 1 one sides are provided with locating back 2, and the opposite side two ends are provided with support 3; Have groove 5 on the described support 3; Described slide 4 is stuck in the support 3 by groove 5; Described the first processing unit (plant) comprises synchronous rubber roll 8 and the MULTI NEEDLE FLAT AEWING MACHINE 7 that is positioned on the first frame 6; Described synchronous rubber roll 8 is positioned at the rear of MULTI NEEDLE FLAT AEWING MACHINE 7; Described the second processing unit (plant) comprises the second frame 9, cutting mechanism, hold-down mechanism, air-flotation system 22, flap mechanism and transmits sewing mechanism; Described cutting mechanism, hold-down mechanism, air-flotation system, flap mechanism and transmission sewing mechanism are positioned on the second frame 9; Described shear is sheared fabric; Described hold-down mechanism, air-flotation system 22 and flap mechanism cooperatively interact to carry out doubling processing from shear fabric out; The fabric of described transmission sewing mechanism after with doubling carried and processed; Described cutting mechanism comprises bracing frame 10, feeding tugboat 11, cutting knife slide rail 14, cutter motor frame 15, cutter motor 16, round cutter 17, cutting knife optical inductor 39, drag chain 18 and Timing Belt 19; Support frame as described above 10 is provided with cutting knife slide rail 14; Support frame as described above 10 is provided with the feeding tugboat 11 that is positioned at cutting knife slide rail 14 belows; Described cutting knife slide rail 14 is provided with cutter motor frame 15; Described cutter motor frame 15 both sides are respectively equipped with cutter motor 16 and round cutter 17; Described cutter motor 16 and round cutter 17 with between be connected by Timing Belt 19; Described cutter motor 16 links to each other with drag chain 18; Support frame as described above 10 two ends also are respectively equipped with cutting knife optical inductor 39; Described flap mechanism comprises push pedal cylinder 21, feeding slide rail 25, plaiting push pedal 20, double stroke cylinder 24 and electromagnet 23; Described push pedal cylinder 21 is fixedly installed on the second frame 9; Described push pedal cylinder 21 is provided with feeding slide rail 25; Described feeding slide rail 25 belows are provided with plaiting push pedal 20; Described feeding slide rail 25 tops also are provided with double stroke cylinder 24; Described double stroke cylinder 24 1 ends are provided with electromagnet 23; Described hold-down mechanism comprises fixed head 26, the first slide rail 27, doubling cylinder 28, the second slide rail 29, plaiting plate bracket 30, plaiting pressing plate 21, air cylinder support 32 and cylinder 33; Described fixed head 26 is arranged on the second frame 9; Described fixed head 26 is provided with the first slide rail 27; Described the first slide rail 27 is provided with the doubling cylinder 28 that can slide up and down; Described doubling cylinder 28 is provided with the second slide rail 29; Described the second slide rail 29 is provided with slidably plaiting plate bracket 30; Described plaiting plate bracket 30 is provided with plaiting pressing plate 31; Also be provided with air cylinder support 32 on the described fixed head 26; Described air cylinder support 32 is provided with cylinder 33; Described cylinder 33 passes air cylinder support 32 and is arranged on the plaiting plate bracket 30; Described transmission sewing mechanism comprises conveyer chain frame 34, synchronous roller 35, electric rotating machine 36, swings manipulator 37, feeding Timing Belt 38, flat seam machine 12, head optical inductor 40 and finished product basket 13; Described the second frame 9 is provided with two conveyer chain frames 34 of relative fixed placement; Described conveyer chain frame 34 is provided with a plurality of synchronous rollers 35; Also be provided with on the described conveyer chain frame 34 and can make the swing manipulator 37 that swings up and down by electric rotating machine 36; Connect by feeding Timing Belt 38 between described swing manipulator 37 and the synchronous roller 35; Described flat seam machine 12 is positioned at conveyer chain frame 34; The described flat seam machine 12 of stating is provided with head optical inductor 40; Described finished product basket 13 is arranged on flat seam machine 12 rears.
Yarn bag machine of the present invention, when bringing into use, at first the whole cylinder of fabric is cut into required width, penetrate in the slide 4 of feeding frame 1, slide 4 is stuck in the circular groove 5 of support 3, by slide 4 the fabric two ends are rolled into given size, after flattening by locating back 2, fabric enters on the first frame 6, then the two ends of 7 pairs of fabrics of MULTI NEEDLE FLAT AEWING MACHINE are sewed up, fabric is transferred on the feeding tugboat 11 of the second frame 9 by synchronous roller 8 after sewing up, when feeding tugboat 11 is transferred to cutting knife optical inductor 39 place to fabric, the cutter motor 16 that is positioned on the cutter motor frame 15 starts rotation automatically, cutter motor 16 drives round cutter 17 by Timing Belt 19 and does rotation, then round cutter 17 is mobile forward by cutting knife slide rail 14, fabric is carried out cutting, when round cutter 17 is sensed cutting knife optical inductor 39, round cutter 17 automatically stops the rotation and gets back to initial point, and stops the rotation; Then the fabric transmission enters on the work top of the second frame 9; Open first cylinder 33, the plaiting pressing plate 31 that cylinder 33 drives on the plaiting plate bracket 30 is moved along to certain position at the second slide rail 29, then doubling cylinder 28 starts, doubling cylinder 28 moves down at the first slide rail 27, thereby driving plaiting pressing plate 31 moves down, so that plaiting pressing plate 31 compresses fabric downwards, open double stroke cylinder 24, electromagnet 23 is moved along to plaiting pressing plate 31 places, allow electromagnet 23 hold plaiting pressing plate 31, fix fabric, then allow air-flotation system 22 start fabric is blown afloat doubling, and then push pedal cylinder 21 starts, and plaiting push pedal 20 is moved along to the fabric place by plaiting slide rail 25, fabric is pushed away forward, and the doubling of fabric is finished like this; Then open electric rotating machine 36, swing manipulator 37 and move down, fabric is compressed; Doubling cylinder 28 and cylinder 33 are closed, and plaiting pressing plate 31 upwards lifts and return initial point, and push pedal cylinder 21 and double stroke cylinder 24 are closed, and plaiting push pedal 20 and electromagnet 23 are got back to initial point; Then feeding Timing Belt 38 beginning feedings, when the head optical inductor 40 on the flat seam machine 12 is sensed fabric, flat seam machine 12 begins the fabric two ends after the doubling are sewed up, and when head optical inductor 40 was sensed the fabric end, flat seam machine 12 starts automatically refunded pin, sewing finishes, feeding Timing Belt 38 continues to send forward fabric, deliver to assigned address after, swing manipulator 37 and lift, then make finished product and enter finished product basket 13, the process of making finishes.
Yarn bag machine of the present invention has replaced manually-operated to carry out the production of yarn bag by mechanical automation, the labour intensity that greatly reduces the workman is high, can realize aborning the production model of people's multimachine, improved the production efficiency of product, reduced production cost, be convenient to produce and effectively manage, so that the output value of product can reach maximization.
Above-described embodiment only is explanation technical conceive of the present invention and characteristics; its purpose is to allow the personage that is familiar with technique can understand content of the present invention and is implemented; can not limit protection scope of the present invention with this; all equivalences that Spirit Essence is done according to the present invention change or modify, and all should be encompassed in protection scope of the present invention.