A kind of high efficiency yarn bag machine
Technical field
The present invention relates to a kind of yarn bag machine, relate in particular to the yarn bag machine that a kind of production efficiency is high.
Background technology
Yarn bag is the common articles for use of the one in daily life, the demand of producing is larger, the production technology of existing yarn bag completes by manual operation mostly, its main technological process is such: 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 fabric doubling, such yarn bag has just machined, although such production technology can complete the production of yarn bag, but exist some obvious shortcomings, first such production method, workman's labour intensity is high, fatiguability after operating time is long, cause the production efficiency of product to improve, secondly its production cost is also high, be not suitable for the product of production in enormous quantities, production efficiency is low, thereby make 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: proposed a kind of output value that can make product and reached maximized high efficiency yarn bag machine.
Technical solution of the present invention is achieved in that a kind of high efficiency yarn bag machine, comprises the first processing unit (plant), the second processing unit (plant), the 3rd processing unit (plant) and the 4th processing unit (plant); Described the first processing unit (plant), the second processing unit (plant), the 3rd processing unit (plant) and the 4th processing unit (plant) successively relative fixed placement; Described the first processing unit (plant) is sent in the second processing unit (plant) after folding gauze is bilateral; The gauze that described the second processing unit (plant) is sent the first processing unit (plant) carries out bilaterally for the first time binding off and being transferred in the 3rd processing unit (plant); Described the 3rd processing unit (plant) carries out being transported in the 4th processing unit (plant) doubling rotation to the gauze of sending from the second processing unit (plant); Described the 4th processing unit (plant) carries out secondary to it again after gauze is sheared and binds off.
Preferably, described the first processing unit (plant) comprises the pay-off and the bilateral folding device that are installed in successively on the first board; Described pay-off comprises feeding roller, drawing-inroller and block; Described feeding roller is rotating to be arranged on the first board; Between described feeding roller and bilateral folding device, be provided with multiple drawing-inrollers; Described drawing-inroller both sides are respectively equipped with block.
Preferably, described bilateral folding device comprises fixed mount, movable plate, location-plate and arc; Described fixed mount is provided with two movable plates that can laterally slide; Described movable plate one end is provided with location-plate; On described location-plate, have " L " type groove; Described location-plate rear, the same axial line that is positioned at location-plate is provided with multiple arcs; On described arc, have arc groove; Location-plate and arc on described two movable plates are placed symmetrically.
Preferably, described the second processing unit (plant) comprises the first two-needle sewing machine and the synchronous roller that are installed on the second board; Described synchronous roller is arranged on the first two-needle sewing machine both sides.
Preferably, described the 3rd processing unit (plant) comprises the multiple regulating wheels, doubling-up device and the rotationally conveying device that are installed on the 3rd board; Described regulating wheel is arranged on the 3rd board top; Described doubling-up device, rotationally conveying device are installed in the 3rd board below successively; Described regulating wheel will be transferred to doubling-up device place after gauze tensioning; Described doubling-up device will be sent to rotationally conveying device place after gauze doubling; Described rotationally conveying device is sent to the 4th processing unit (plant) place after gauze is become to horizontal positioned.
Preferably, described doubling-up device comprises the locating rack, the first locating shaft, the second locating shaft, the first locating piece, the second locating piece, the 3rd locating piece, the first swingle, symmetrical plate, symmetry blocks and the backstay that are installed in the 3rd board below; Described locating rack below is provided with the first locating shaft and second locating shaft of parallel placement; Described the first locating shaft is provided with symmetrical the first locating piece and the second locating piece of placing; Described the second locating shaft is provided with the 3rd locating piece; Described the 3rd locating piece is positioned at the extended spot of the first locating piece and the second locating piece symmetrical centre; On described the first locating piece, the second locating piece, the 3rd locating piece, be equipped with rotatable the first swingle; Described the 3rd locating piece both sides are provided with two symmetrical plates about the 3rd locating piece symmetry; Described symmetrical plate is fixedly connected with the second locating shaft with the first locating shaft; Inner side, described symmetrical plate one end is provided with symmetry blocks; Described symmetry blocks is provided with vertically disposed backstay.
Preferably, described rotationally conveying device comprises the rotation pedestal, the first rotating shaft, the second rotating shaft, material-feeding rolling wheels, spill spin block and the second swingle that are installed in the 3rd board below; Described rotation pedestal one end is provided with the first rotating shaft and second rotating shaft of parallel placement, and the other end is provided with two material-feeding rolling wheels setting up and down; On described the first rotating shaft and the second rotating shaft, be respectively equipped with spill spin block; Described spill spin block is provided with the second swingle; The second swingle on described the first rotating shaft and the angle of horizontal direction are 45 °; The second swingle on the second swingle and the first rotating shaft on described the second rotating shaft is symmetrical arranged.
Preferably, described the 4th processing unit (plant) comprises and is arranged on synchronizing wheel, cutting mechanism and the grabbing device of the 3rd board top and is installed in conveying mechanism and the second two-needle sewing machine on the 4th board; The gauze that described the 3rd processing unit (plant) is sent enters into cutting mechanism by synchronizing wheel; The gauze that described cutting mechanism is sent synchronizing wheel is sheared; Described grabbing device is sent to conveying mechanism place the gauze of having sheared; Described conveying mechanism is sent to the second two-needle sewing machine place by gauze and carries out bilateral binding off for the second time.
Preferably, described grabbing device comprises swivel mount, rotating shaft, the first motor, the second motor, conveyer belt, connecting plate, slide rail, upper gripper jaw, lower jaw, pressing plate, bracing frame, guide rail, the first cylinder, the second cylinder, tightens plate and lower tight plate; Described swivel mount, the first motor and slide rail are arranged on the 3rd board; Described swivel mount is provided with rotating shaft; Described the first motor is connected by conveyer belt with rotating shaft; Described connecting plate and conveyer belt are fixedly linked; Described connecting plate is slidably arranged on slide rail; Described connecting plate is provided with multiple the first cylinders; Described the first cylinder is provided with upper gripper jaw and the lower jaw that can clamp up and down; On described upper gripper jaw and lower jaw, be connected with respectively pressing plate; Described slide rail one side is also provided with the bracing frame being fixed on the 4th board; Support frame as described above is provided with the guide rail arranging perpendicular to slide rail; Described guide rail and cutting mechanism are fixedly linked; Described guide rail is provided with the second cylinder moving by the second motor; The expansion link below of described the second cylinder is provided with and tightens plate; The described below that tightens plate is provided with the lower tight plate that is fixed on the second cylinder one side.
Due to the utilization of technique scheme, the present invention compared with prior art has following advantages:
A kind of high efficiency yarn bag machine of the present invention program, gauze folds up its symmetrical both sides by the first processing unit (plant), then send into the second processing unit (plant) to the gauze operation of binding off for the first time, then by the 3rd processing unit (plant), gauze is carried out to doubling, and it is rotated to be send into the 4th processing unit (plant) after horizontal positioned and complete the operation of binding off for the second time, complete the system of yarn bag.High efficiency yarn bag machine of the present invention has replaced original manual operations to produce yarn bag machine by mechanical automation, the labour intensity that has reduced workman is high, improve the production efficiency of product, but also reduce production cost, be convenient to effectively manage producing, ensure that the production output value of product can reach maximization.
Brief description of the drawings
Below in conjunction with accompanying drawing, technical solution of the present invention is described further:
The structural representation that accompanying drawing 1 is high efficiency yarn bag machine of the present invention;
The structural representation at another visual angle that accompanying drawing 2 is high efficiency yarn bag machine of the present invention;
The structural representation that accompanying drawing 3 is bilateral folding device;
The structural representation that accompanying drawing 4 is doubling-up device;
The structural representation at another visual angle that accompanying drawing 5 is doubling-up device;
The structural representation that accompanying drawing 6 is rotationally conveying device;
The structural representation that accompanying drawing 7 is grabbing device;
Accompanying drawing 8 is the partial enlarged drawing in accompanying drawing 7;
The structural representation at another visual angle that accompanying drawing 9 is grabbing device;
Accompanying drawing 10 is the partial enlarged drawing in accompanying drawing 9;
Wherein: 1, the first board; 2, feeding roller; 3, drawing-inroller; 4, block; 5, fixed mount; 6, movable plate; 7, location-plate; 8, arc; 9, the second board; 10, the first two-needle sewing machine; 11, synchronous roller; 12, the 3rd board; 13, regulating wheel; 14, locating rack; 15, the first locating shaft; 16, the second locating shaft; 17, the first locating piece; 18, the second locating piece; 19, the 3rd locating piece; 20, the first swingle; 21, symmetrical plate; 22, symmetry blocks; 23, backstay; 24, rotation pedestal; 25, the first rotating shaft; 26, the second rotating shaft; 27, material-feeding rolling wheels; 28, spill spin block; 29, the second swingle; 30, synchronizing wheel; 31, cutting mechanism; 32, conveying mechanism; 33, the second two-needle sewing machine; 34, swivel mount; 35, rotating shaft; 36, the first motor; 37, the second motor; 38, connecting plate; 39, the 4th board; 40, slide rail; 41, the first cylinder; 42, upper gripper jaw; 43, pressing plate; 44, tighten plate; 45, lower tight plate; 46, bracing frame; 47, guide rail; 48, the second cylinder.
Detailed description of the invention
Below in conjunction with accompanying drawing, the present invention is described.
Of the present invention a kind of high efficiency yarn bag machine as shown in accompanying drawing 1-9, comprises the first processing unit (plant), the second processing unit (plant), the 3rd processing unit (plant) and the 4th processing unit (plant); Described the first processing unit (plant), the second processing unit (plant), the 3rd processing unit (plant) and the 4th processing unit (plant) successively relative fixed placement; Described the first processing unit (plant) is sent in the second processing unit (plant) after folding gauze is bilateral; The gauze that described the second processing unit (plant) is sent the first processing unit (plant) carries out bilaterally for the first time binding off and being transferred in the 3rd processing unit (plant); Described the 3rd processing unit (plant) carries out being transported in the 4th processing unit (plant) doubling rotation to the gauze of sending from the second processing unit (plant); Described the 4th processing unit (plant) carries out secondary to it again after gauze is sheared and binds off; Described the first processing unit (plant) comprises the pay-off and the bilateral folding device that are installed in successively on the first board 1; Described pay-off comprises feeding roller 2, drawing-inroller 3 and block 4; Described feeding roller 2 is rotating to be arranged on the first board 1; Between described feeding roller 2 and bilateral folding device, be provided with multiple drawing-inrollers 3; Described drawing-inroller 3 both sides are respectively equipped with block 4; Described bilateral folding device comprises fixed mount 5, movable plate 6, location-plate 7 and arc 8; Described fixed mount 5 is provided with two movable plates that can laterally slide 6; Described movable plate 6 one end are provided with location-plate 7; On described location-plate 7, have " L " type groove; Described location-plate 7 rears, the same axial line that is positioned at location-plate 7 is provided with multiple arcs 8; On described arc 8, have arc groove; Location-plate 7 and arc 8 on described two movable plates 6 are placed symmetrically; Described the second processing unit (plant) comprises the first two-needle sewing machine 10 and the synchronous roller 11 that are installed on the second board 9; Described synchronous roller 11 is arranged on the first two-needle sewing machine 10 both sides; Described the 3rd processing unit (plant) comprises the multiple regulating wheels 13, doubling-up device and the rotationally conveying device that are installed on the 3rd board 12; Described regulating wheel 13 is arranged on the 3rd board 12 tops; Described doubling-up device, rotationally conveying device are installed in the 3rd board 12 belows successively; Described regulating wheel 13 will be transferred to doubling-up device place after gauze tensioning; Described doubling-up device will be sent to rotationally conveying device place after gauze doubling; Described rotationally conveying device is sent to the 4th processing unit (plant) place after gauze is become to horizontal positioned; Described doubling-up device comprises the locating rack 14, the first locating shaft 15, the second locating shaft 16, the first locating piece 17, the second locating piece 18, the 3rd locating piece 19, the first swingle 20, symmetrical plate 21, symmetry blocks 22 and the backstay 23 that are installed in the 3rd board 12 belows; Described locating rack 14 belows are provided with the first locating shaft 15 and second locating shaft 16 of parallel placement; Described the first locating shaft 15 is provided with symmetrical the first locating piece 17 and the second locating piece 18 of placing; Described the second locating shaft 16 is provided with the 3rd locating piece 19; Described the 3rd locating piece 19 is positioned at the extended spot of the first locating piece 17 and the second locating piece 18 symmetrical centre; On described the first locating piece 17, the second locating piece 18, the 3rd locating piece 19, be equipped with rotatable the first swingle 20; Described the 3rd locating piece 19 both sides are provided with two symmetrical plates 21 about the 3rd locating piece 19 symmetries; Described symmetrical plate 21 is fixedly connected with the second locating shaft 16 with the first locating shaft 15; Described symmetrical plate 21 inner sides, one end are provided with symmetry blocks 22; Described symmetry blocks 22 is provided with vertically disposed backstay 23; Described rotationally conveying device comprises the rotation pedestal 24, the first rotating shaft 25, the second rotating shaft 26, material-feeding rolling wheels 27, spill spin block 28 and the second swingle 29 that are installed in the 3rd board 12 belows; Described rotation pedestal 24 one end are provided with the first rotating shaft 25 and second rotating shaft 26 of parallel placement, and the other end is provided with two material-feeding rolling wheels 27 setting up and down; On described the first rotating shaft 25 and the second rotating shaft 26, be respectively equipped with spill spin block 28; Described spill spin block 28 is provided with the second swingle 29; The second swingle on described the first rotating shaft 25 and the angle of horizontal direction are 45 °; The second swingle 29 on the second swingle 29 and the first rotating shaft 25 on described the second rotating shaft 26 is symmetrical arranged; Described the 4th processing unit (plant) comprises and is arranged on synchronizing wheel 30, cutting mechanism 31 and the grabbing device of the 3rd board 12 tops and is installed in conveying mechanism 32 and the second two-needle sewing machine 33 on the 4th board 39; The gauze that described the 3rd processing unit (plant) is sent enters into cutting mechanism 31 by synchronizing wheel 30; The gauze that described cutting mechanism 31 is sent synchronizing wheel 30 is sheared; Described grabbing device is sent to conveying mechanism 32 places the gauze of having sheared; Described conveying mechanism 32 is sent to the second two-needle sewing machine 33 places by gauze and carries out bilateral binding off for the second time; Described grabbing device comprises swivel mount 34, rotating shaft 35, the first motor 36, the second motor 37, conveyer belt, connecting plate 38, slide rail 40, upper gripper jaw 42, lower jaw, pressing plate 43, bracing frame 46, guide rail 47, the first cylinder 41, the second cylinder 48, tightens plate 44 and lower tight plate 45; Described swivel mount 34, the first motor 36 and slide rail 40 are arranged on the 3rd board 12; Described swivel mount 34 is provided with rotating shaft 35; Described the first motor 36 is connected by conveyer belt with rotating shaft 35; Described connecting plate 38 is fixedly linked with conveyer belt; Described connecting plate 36 is slidably arranged on slide rail 40; Described connecting plate 38 is provided with multiple the first cylinders 41; Described the first cylinder 41 is provided with upper gripper jaw 42 and the lower jaw that can clamp up and down; On described upper gripper jaw 42 and lower jaw, be connected with respectively pressing plate 43; Described slide rail 40 1 sides are also provided with the bracing frame 46 being fixed on the 4th board 39; Support frame as described above 46 is provided with the guide rail 47 arranging perpendicular to slide rail 40; Described guide rail 47 is fixedly linked with cutting mechanism 31; Described guide rail 47 is provided with the second cylinder 48 moving by the second motor 37; The expansion link below of described the second cylinder 48 is provided with and tightens plate 44; The described below that tightens plate 44 is provided with the lower tight plate 45 that is fixed on the second cylinder 48 1 sides.
High efficiency yarn bag machine of the present invention, before bringing into use, feeding roller is arranged on the first board, gauze is wrapped on feeding roller, and adjust the angle of swingle on the first locating piece, the second locating piece and the 3rd locating piece, make the angle between the swingle on the first locating piece and the second locating piece rectangular, swingle on the 3rd backstay is between two backstays, and the angle between itself and level is 45 °, in the time starting working, gauze is sent to the table top of the first board by feeding roller, then enter into bilateral folding device; Enter after bilateral folding device, gauze is first by the location-plate of movable plate below, from " L " type groove of location-plate, pass, and then in the deep-slotted chip breaker from multiple arcs at location-plate rear, pass successively, thereby play the folding effect symmetrical bilateral to gauze; Synchronous roller on the second board transmits gauze and carries out bilateral the binding off for the first time of gauze to the first two-needle sewing machine place, then is transported to the 3rd processing unit (plant) place by synchronous roller; In the 3rd processing unit (plant), gauze is sent to doubling-up device place by multiple regulating wheels, gauze is first by being folded in half and being divided into both sides after the swingle on the first locating piece and the second locating piece, then gauze both sides complete by the swingle two rear flank doublings on the 3rd locating piece respectively, and then the gauze after doubling makes the gauze of doubling keep the state of doubling by the backstay on locating piece, gauze doubling has just completed, and then transmission enters into rotationally conveying device; In rotationally conveying device, gauze has been undertaken by swingle after the rotation of 45 °, again by an other swingle, this root swingle has played the effect to gauze rib, then gauze is sent in synchronous roller, and gauze is sent in the 4th processing unit (plant) from vertical placement becomes horizontal positioned; In the 4th processing unit (plant), gauze has entered into shear by synchronizing wheel and has sheared, and after having sheared, enters into grabbing device.
In grabbing device, dressing scissors cuts into, at this moment the first motor is opened, the rotating shaft of motor is rotated, driven the rotation of conveyer belt (not shown) by rotating shaft, connecting plate just follows conveyer belt to move horizontally together by slide rail like this, when connecting plate moves to gauze just in time in the middle of two pressing plates in upper gripper jaw and lower jaw (not shown) time, the first motor stops operating, the first cylinder is opened, drive upper gripper jaw and lower jaw (not shown) to do the action clamping up and down, so just the gauze of having sheared is clamped in to two pressing plates centres of upper gripper jaw and lower jaw (not shown), then the first motor is opened, connecting plate is got back to initial position, and then the second motor is opened, such the second cylinder just moves horizontally by guide rail, when the second cylinder move to gauze just in time in the second cylinder tighten in the middle of plate and lower tight plate time, the second motor is out of service, the second cylinder is opened, the gauze of having sheared is pressed on and is tightened between plate and lower tight plate, then the first cylinder is closed, upper gripper jaw and lower jaw unclamp, then the second motor is opened, the gauze of having sheared is sent to conveying mechanism place, conveying mechanism is sent to the second two-needle sewing machine place gauze again to carry out the bilateral of other both sides and binds off, thereby finally complete the processing of yarn bag.
In above-mentioned high efficiency yarn bag machine, be also provided with baffle plate in drawing-inroller both sides, more steady can allow like this gauze transmit time.
High efficiency yarn bag machine of the present invention, replace original manual operations to produce yarn bag machine by mechanical automation, the labour intensity that has reduced workman is high, improve the production efficiency of product, but also reduce production cost, be convenient to effectively manage producing, ensure that the production output value of product can reach maximization.
Above-described embodiment is only explanation technical conceive of the present invention and feature; its object is to allow person skilled in the art can understand content of the present invention and be implemented; can not limit the scope of the 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.