The stop mechanism for towel machine that a kind of product quality is high
Technical field
The present invention relates to a kind of stop mechanism for towel machine, particularly relate to a kind of high stop mechanism for towel machine of product quality that automatically can complete towel and produce.
Background technology
Towel is the common articles for use of one in daily life, and demand is larger, and in existing production technology, the production procedure of towel is such: for individual layer cloth, first cut off cloth, then binds off to four limits of the cloth after cut-out; For multilayer cloth, first need to sew up multilayer cloth, then in cut-out, finally bound off in four limits of the cloth after cut-out.No matter be when carrying out towel production with individual layer cloth or multilayer cloth, substantially be adopt manual mode, although the square presentation of such craft can complete the production of towel, but there are some obvious shortcomings: first such production method, the labour intensity of workman is high, fatiguability after the operating time is long, the production efficiency of product is caused to improve, secondly its production cost is also high, and be not suitable for the product of production in enormous quantities, the output value of product cannot reach maximization.
Summary of the invention
For the technical problem of above-mentioned existence, the object of the invention is: propose a kind of high stop mechanism for towel machine of product quality that automatically can complete towel and produce.
Technical solution of the present invention is achieved in that the stop mechanism for towel machine that a kind of product quality is high, comprises pay-off, the device that binds off, processing unit (plant) and thermofusion device; Described pay-off is fixedly linked with the device that binds off; Described processing unit (plant) fixed placement relative to the device that binds off; Described processing unit (plant) side is provided with thermofusion device; Described pay-off is sent to cloth and binds off in device; The described device that binds off carries out once bilateral binding off to the cloth that pay-off is sent; To carrying out after the cloth cut-out sent from the device that binds off, secondary is bilateral to bind off described processing unit (plant) again; Described thermofusion device carries out hot melt to the cloth sent from processing unit (plant).
Preferably, described pay-off comprises feeding frame, cylinder and transfer assembly; Described feeding frame upper end is provided with rotating cylinder; Described feeding frame lower end is provided with the transfer assembly can doing vertical rotary motion.
Preferably, the device that binds off described in comprises position first board, synchronizing wheel, holds down assembly, the first MULTI NEEDLE FLAT AEWING MACHINE and a pair synchronous rubber first roller; Described first board is provided with synchronizing wheel successively, holds down assembly, the first MULTI NEEDLE FLAT AEWING MACHINE and a pair synchronous rubber first roller; Described synchronizing wheel and hold down assembly cloth presser is smooth; Described first MULTI NEEDLE FLAT AEWING MACHINE carries out once bilateral binding off to the cloth after flattening; The cloth having copied limit is sent by described a pair synchronous rubber first roller.
Preferably, two pressing plates in the operating table surface that comprises and be symmetricly set on the first board of holding down assembly described in; In 45° angle between the operating table surface of described pressing plate and the first board.
Preferably, described processing unit (plant) comprises the second board, a pair synchronous rubber second roller, cutting mechanism, conveying mechanism and the second MULTI NEEDLE FLAT AEWING MACHINE; Described second board is provided with successively a pair synchronous rubber second roller and cutting mechanism; The rear of described cutting mechanism is provided with conveying mechanism and the second MULTI NEEDLE FLAT AEWING MACHINE; The cloth that the described device that binds off is sent enters cutting mechanism through a pair synchronous rubber second roller; Described cutting mechanism is sheared cloth; The cloth sheared is flowed to the second MULTI NEEDLE FLAT AEWING MACHINE by described conveying mechanism; Described second MULTI NEEDLE FLAT AEWING MACHINE carries out to cloth that secondary is bilateral to bind off.
Preferably, described shear comprises the second fixed mount, platen, cutting knife, cutting knife cylinder, top board, lower platen, top board cylinder and lower platen cylinder; Described second fixed mount lower inside is provided with platen; Described second fixed mount inside is provided with the cutting knife be positioned at above platen; Multiple cutting knife cylinder is provided with above described second fixed mount; The expansion link of described cutting knife cylinder is connected with cutting knife; The symmetrical top board placed and lower platen is provided with between described platen and cutting knife; Described top board is identical with the structure of lower platen; Described lower platen is arranged on platen; Described second fixed mount is also provided with top board cylinder; Described top board is connected with the expansion link of top board cylinder; Described lower platen has multiple groove; Multiple lower platen cylinder is provided with below the groove of described lower platen.
Preferably, described conveying mechanism comprises the first conveying mechanism, second conveyor structure and the 3rd conveying mechanism; Described first conveying mechanism comprises guide rail, driving wheel, drive unit, conveyer belt, sensor, locating piece, movable stand, cylinder, upper gripper jaw and lower jaw; Described second board is provided with the guide rail perpendicular with cutting mechanism; The two ends of described guide rail are respectively equipped with a driving wheel; Described drive unit is connected with driving wheel; Described two driving wheels are connected by conveyer belt; Described guide rail both sides are respectively equipped with sensor; Described sensor is connected with the drive unit at two ends respectively; Described conveyer belt is fixed with locating piece; Movable stand is provided with bottom described locating piece; Multiple cylinder is provided with bottom described movable stand; Described cylinder is provided with the upper gripper jaw and lower jaw that can clamp up and down.
Preferably, described second conveyor structure comprises motor, synchronous roller and conveyer belt; Described second board both sides are respectively equipped with motor; The rotating shaft of described motor is provided with multiple synchronous roller; Described synchronous roller is provided with conveyer belt; Be connected by conveyer belt between the motor of described both sides.
Preferably, described 3rd conveying mechanism comprises carrier chain frame, carrier chain and carrier chain motor; Described second board is provided with two carrier chain frames of relative fixed placement; Described carrier chain frame is vertical with guide rail places; Described carrier chain frame one end is connected with the rotating shaft of carrier chain motor; Carrier chain is provided with below described carrier chain frame.
Preferably, described thermofusion device comprises the 3rd board, the first fixed mount, connecting rod cylinder, compact heap, compression cylinder, upper hotting mask, lower hotting mask and feeding slide plate; Described 3rd board is provided with two fixed mounts of relative fixed placement; Described fixed mount is provided with connecting rod cylinder; The expansion link of described connecting rod cylinder is provided with compact heap; Described compact heap is provided with compression cylinder; Described compression cylinder is provided with the upper hotting mask and lower hotting mask that can clamp up and down; Described 3rd board is also fixed with two feeding slide plates; Described feeding slide plate is connected with carrier chain.
Due to the utilization of technique scheme, the present invention compared with prior art has following advantages:
The stop mechanism for towel machine that a kind of product quality of the present invention program is high, cloth is sent to by pay-off the device that binds off and carries out once bilateral binding off to the both sides of cloth symmetry, then secondary is bilateral to bind off to carrying out the both sides of not binding off in addition after cloth cut-out again to send into processing unit (plant), then hot melt process is carried out to needlework unnecessary on towel, finally complete the making of towel, the stop mechanism for towel machine that product quality of the present invention is high, it instead of by mechanical automation the production that towel is carried out in original manual operation, the labour intensity reducing workman is high, firmly improve the production efficiency of product, reduce production cost, be convenient to production effectively manage, meet the high request of actual production.
Accompanying drawing explanation
Below in conjunction with accompanying drawing, technical solution of the present invention is described further:
Accompanying drawing 1 is the perspective view of the stop mechanism for towel machine that product quality of the present invention is high;
Accompanying drawing 2 is the partial enlarged drawing in accompanying drawing 1;
Accompanying drawing 3 is the partial enlarged drawing in accompanying drawing 1;
Accompanying drawing 4 is the partial enlarged drawing in accompanying drawing 1;
Accompanying drawing 5 is the structural representation of cutting mechanism;
Accompanying drawing 6 is the structural representation at another visual angle of shear constitution;
Accompanying drawing 7 is the partial enlarged drawing in accompanying drawing 5;
Accompanying drawing 8 is the structural representation of thermofusion device;
Accompanying drawing 9 is the partial enlarged drawing in accompanying drawing 8;
Wherein: 1, feeding frame; 2, cylinder; 3, transfer assembly; 4, the first board; 5, synchronizing wheel; 6, hold down assembly; 7, the first MULTI NEEDLE FLAT AEWING MACHINE; 8, a pair synchronous rubber first roller; 9, carrier chain motor; 10, the second board; 11, a pair synchronous rubber second roller; 12, cutting mechanism; 13, the second MULTI NEEDLE FLAT AEWING MACHINE; 14, stop sending device; 15, feeding slide plate; 16, guide rail; 17, driving wheel; 18, drive unit; 19, conveyer belt; 20, sensor; 21, locating piece; 22, movable stand; 23, cylinder; 24, upper gripper jaw; 25, lower jaw; 26, motor; 27, synchronous roller; 28, conveyer belt; 29, carrier chain frame; 30, carrier chain; 31, the 3rd board; 32, the first fixed mount; 33, connecting rod cylinder; 34, compact heap; 35, compression cylinder; 36, upper hotting mask; 37, lower hotting mask; 38, groove; 39, the second fixed mount; 40, platen; 41, cutting knife; 42, cutting knife cylinder; 43, top board; 44, lower platen; 45, top board cylinder; 46, lower platen cylinder.
Detailed description of the invention
Below in conjunction with accompanying drawing, the present invention is described.
The stop mechanism for towel machine that of the present invention a kind of product quality as shown in accompanying drawing 1-9 is high, comprises pay-off, the device that binds off, processing unit (plant) and thermofusion device; Described pay-off is fixedly linked with the device that binds off; Described processing unit (plant) fixed placement relative to the device that binds off; Described processing unit (plant) side is provided with thermofusion device; Described pay-off is sent to cloth and binds off in device; The described device that binds off carries out once bilateral binding off to the cloth that pay-off is sent; To carrying out after the cloth cut-out sent from the device that binds off, secondary is bilateral to bind off described processing unit (plant) again; Described thermofusion device carries out hot melt to the cloth sent from processing unit (plant); Described pay-off comprises feeding frame 1, cylinder 2 and transfer assembly 3; Described feeding frame 1 upper end is provided with rotating cylinder 2; Described feeding frame 1 lower end is provided with the transfer assembly 3 can doing vertical rotary motion; The described device that binds off comprises position first board 4, synchronizing wheel 5, hold down assembly the 6, first MULTI NEEDLE FLAT AEWING MACHINE 7 and a pair synchronous rubber first roller 8; Described first board 4 is provided with synchronizing wheel 5 successively, hold down assembly the 6, first MULTI NEEDLE FLAT AEWING MACHINE 7 and a pair synchronous rubber first roller 8; Described synchronizing wheel 5 and hold down assembly 6 cloth presser is smooth; Described first MULTI NEEDLE FLAT AEWING MACHINE 7 carries out once bilateral binding off to the cloth after flattening; The cloth having copied limit is sent by described a pair synchronous rubber first roller 8; Described hold down assembly 6 comprise be symmetricly set on the first board 4 operating table surface on two pressing plates; In 45° angle between the operating table surface of described pressing plate and the first board 4; Described processing unit (plant) comprises the second board 10, a pair synchronous rubber second roller 11, cutting mechanism 12, conveying mechanism and the second MULTI NEEDLE FLAT AEWING MACHINE 13; Described second board 10 is provided with successively a pair synchronous rubber second roller 11 and cutting mechanism 12; The rear of described cutting mechanism 12 is provided with conveying mechanism and the second MULTI NEEDLE FLAT AEWING MACHINE 13; The cloth that the described device that binds off is sent enters cutting mechanism 12 through a pair synchronous rubber second roller 11; Described cutting mechanism 12 pairs of clothes are sheared; The cloth sheared is flowed to the second MULTI NEEDLE FLAT AEWING MACHINE 13 by described conveying mechanism; Described second MULTI NEEDLE FLAT AEWING MACHINE 13 pairs of clothes carry out that secondary is bilateral to bind off; Described shear comprises the second fixed mount 39, platen 40, cutting knife 41, cutting knife cylinder 42, top board 43, lower platen 44, top board cylinder 45 and lower platen cylinder 46; Described second fixed mount 39 lower inside is provided with platen 40; Described second fixed mount 39 inside is provided with the cutting knife 41 be positioned at above platen 40; Multiple cutting knife cylinder 42 is provided with above described second fixed mount 39; The expansion link of described cutting knife cylinder 42 is connected with cutting knife 41; The symmetrical top board 43 placed and lower platen 44 is provided with between described platen 40 and cutting knife 41; Described top board 43 is identical with the structure of lower platen 44; Described lower platen 44 is arranged on platen 40; Described second fixed mount 39 is also provided with top board cylinder 45; Described top board 43 is connected with the expansion link of top board cylinder 45; Described lower platen 44 has multiple groove 38; Multiple lower platen cylinder 46 is provided with below the groove 38 of described lower platen 44; Described conveying mechanism comprises the first conveying mechanism, second conveyor structure and the 3rd conveying mechanism; Described first conveying mechanism comprises guide rail 16, driving wheel 17, drive unit 18, conveyer belt 19, sensor 20, locating piece 21, movable stand 22, cylinder 23, upper gripper jaw 24 and lower jaw 25; Described second board 10 is provided with the guide rail 16 perpendicular with cutting mechanism 12; The two ends of described guide rail 16 are respectively equipped with a driving wheel 17; Described drive unit 18 is connected with driving wheel 17; Described two driving wheels 17 are connected by conveyer belt 19; Described guide rail 16 both sides are respectively equipped with sensor 20; Described sensor 20 is connected with the drive unit 18 at two ends respectively; Described conveyer belt 19 is fixed with locating piece 21; Movable stand 22 is provided with bottom described locating piece 21; Multiple cylinder 23 is provided with bottom described movable stand 22; Described cylinder 23 is provided with the upper gripper jaw 24 and lower jaw 25 that can clamp up and down; Described second conveyor structure comprises motor 26, synchronous roller 27 and conveyer belt 28; Described second board 10 both sides are respectively equipped with motor 26; The rotating shaft of described motor 26 is provided with multiple synchronous roller 27; Described synchronous roller 27 is provided with conveyer belt 28; Be connected by conveyer belt 28 between the motor of described both sides; Described 3rd conveying mechanism comprises carrier chain frame 29, carrier chain 30 and carrier chain motor 9; Described second board 10 is provided with two carrier chain frames 29 of relative fixed placement; Described carrier chain frame 29 is vertical with guide rail 16 places; Described carrier chain frame 29 one end is connected with the rotating shaft of carrier chain motor 9; Carrier chain 30 is provided with below described carrier chain frame 29; Described thermofusion device comprises the 3rd board 31, fixed mount 32, connecting rod cylinder 33, compact heap 34, compression cylinder 35, upper hotting mask 36, lower hotting mask 37 and feeding slide plate 15; Described 3rd board 31 is provided with two fixed mounts 32 of relative fixed placement; Described fixed mount 32 is provided with connecting rod cylinder 33; The expansion link of described connecting rod cylinder 33 is provided with compact heap 34; Described compact heap 34 is provided with compression cylinder 35; Described compression cylinder 35 is provided with the upper hotting mask 36 and lower hotting mask 37 that can clamp up and down; Described 3rd board 31 is also fixed with two feeding slide plates 15; Described feeding slide plate 15 is connected with carrier chain 30.
The stop mechanism for towel machine that of the present invention a kind of product quality as shown in accompanying drawing 1-9 is high, when bringing into use, first by cloth roll on cylinder, cylinder is arranged in feeding frame, cloth is out stretched to transfer assembly from cylinder, being sent to by synchronizing wheel binds off in device, via two pressing plates bound off in device operating table surface, compression operation is carried out to cloth, then cloth is sent to the first time of carrying out cloth both sides in the first MULTI NEEDLE FLAT AEWING MACHINE place and binds off operation, then sent by a pair synchronous rubber first roller, cloth is sent in cutting mechanism through a pair synchronous rubber second roller.
When cloth is sent to the lower platen place of the platen of cutting mechanism, cloth transmission stops, top board cylinder is opened, the expansion link of top board cylinder drives top board to move down, cloth is pressed between top board and lower platen, cutting knife cylinder is opened, the expansion link of cutting knife cylinder drives cutting knife to move down, cloth is cut off, and then lower platen cylinder is opened, the expansion link of lower platen cylinder drives a cloth up mobile segment distance, ensures that upper gripper jaw in the first conveying mechanism and lower jaw can be lived cloth clamping.
And then the drive unit in the first conveying mechanism is opened, synchronizing wheel rotates, conveyer belt is driven to carry out transmission, conveyer belt drives movable stand to carry out horizontal horizontal direction and moves, when movable stand moves to the sensor of guide rail side, sensor sends signal, conveyer belt stops transmission, at this moment, cloth in lower platen groove is just in time between upper gripper jaw and lower jaw, and cylinder is opened, and cloth is pressed between upper gripper jaw and lower jaw, top board cylinder is closed, and top board and lower platen are unclamped cloth; Then drive unit is opened, driving belt thus drive movable stand to do contrary transverse horizontal and move, when movable stand moves to the sensing station of guide rail opposite side, drive unit quits work, cloth stops transmission, then cylinder is closed, and upper gripper jaw and lower jaw unclamp, and so just cloth are sent to second conveyor structure place.
When cloth is positioned at second conveyor structure place, the machine shaft at second conveyor structure place rotates, and synchronous roller rotates driving conveying belt and transmits, thus cloth is transported to the 3rd conveying mechanism place; Carrier chain motor in 3rd conveying mechanism is opened, and has so just driven the carrier chain below carrier chain frame to roll, and by feeding slide plate, cloth has been sent to thermofusion device place.
After cloth slides out from feeding slide plate, connecting rod cylinder in thermofusion device is opened, compact heap is driven to move forward, compression cylinder is opened, upper hotting mask and lower hotting mask folder compress cloth, carrying out hot melt process to processing rear unnecessary needlework like this, ensure that the outward appearance neat appearance of the needlework suture of towel, finally completing the making of towel.
The stop mechanism for towel machine that above-mentioned product quality is high, is also provided with and stops sending device between the first board and the second board, by stopping sending device to ensure that the fluency that cloth is carried and stability.
The stop mechanism for towel machine that product quality of the present invention is high instead of by mechanical automation the production that towel is carried out in original manual operation, the labour intensity greatly reducing workman is high, the production model of people's multimachine can be realized aborning, improve the production efficiency of product, reduce production cost, be convenient to production and effectively manage, make the output value of product to reach maximization, and the quality of towel is also well guaranteed, meet the high request of production.
Above-described embodiment is only for illustrating technical conceive of the present invention and feature; its object is to person skilled in the art can be understood content of the present invention and be implemented; can not limit the scope of the invention with this; all equivalences done according to Spirit Essence of the present invention change or modify, and all should be encompassed in protection scope of the present invention.