CN205329299U - Store up cloth device - Google Patents

Store up cloth device Download PDF

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Publication number
CN205329299U
CN205329299U CN201521106027.5U CN201521106027U CN205329299U CN 205329299 U CN205329299 U CN 205329299U CN 201521106027 U CN201521106027 U CN 201521106027U CN 205329299 U CN205329299 U CN 205329299U
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China
Prior art keywords
cloth
discharging
charging
storage
driver
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CN201521106027.5U
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Chinese (zh)
Inventor
黎秋凤
金峥
夏仲开
陆全开
张润明
黄忠雁
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Guangdong Esquel Textiles Co Ltd
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Guangdong Esquel Textiles Co Ltd
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Priority to CN201521106027.5U priority Critical patent/CN205329299U/en
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Abstract

The utility model discloses a store up cloth device. This store up cloth device is including storing up the cloth groove, storing up cloth detecting element and controlling means, the quantity of storing up cloth detecting element is at least two, store up the cloth trench in the granny rag device reaches tailor between the device, it is used for the storage to follow to store up the cloth groove the granny rag device is pulled out section of thick bamboo cloth, it connects to store up cloth detecting element the inner wall and the upper and lower distribution in storage cloth groove are in order to be used for the detection in the storage cloth the height of section of thick bamboo cloth, controlling means electric connection in store up cloth detecting element. The utility model relates to a store up cloth device can guarantee production continuity, production efficiency height.

Description

Cloth storage device
Technical field
This utility model relates to cloth bag and makes field, particularly relates to a kind of cloth storage device。
Background technology
In the processing technology of shopping cloth bag, way relatively more traditional at present needs to do pattern according to cloth bag size, calculates the consumption of cylinder cloth, shears cylinder cloth by pattern, and then pieces of cloth sewing machine has been continued sewing by different works by workman。Require that workman has certain stitching process, and production efficiency is low。During sewing cylinder cloth, being choose the cylinder cloth after shearing by pattern one by one, when the speed by pattern shearing of cylinder cloth does not catch up with sewing, the operation of sewing will be affected, and production efficiency is low。
Utility model content
Based on this, it is necessary to provide a kind of cloth storage device that ensure that continuous production, production efficiency are high。
A kind of cloth storage device, including cloth storage trough, storage cloth detecting element and control device;The quantity of described storage cloth detecting element is at least two, described cloth storage trough is between described cloth-pulling device and described Scissoring device, described cloth storage trough is for storing the described cylinder cloth pulled out from described cloth-pulling device, described storage cloth detecting element is connected to the inwall of described cloth storage trough and upper and lower distribution, for detecting the height of described cylinder cloth in described storage cloth, described control device is electrically connected at described storage cloth detecting element。
Wherein in an embodiment, described cloth storage device also has feed roller group, described feed roller group includes feed shaft and charging driver part, the quantity of described feed shaft is two, described feed shaft is connected in the notch edges of described cloth storage trough, two described feed shaft are parallel and contact coordinates, the traverse of described cylinder cloth can be supplied between two described feed shaft, described charging driver part is connected to one of them described feed shaft for driving this feed shaft to rotate, and drive another feed shaft to rotate in opposite directions, described cylinder Bradley is proceeded in described cloth storage trough by two described feed shaft rotated in opposite directions, described control device is electrically connected at described charging driver part。
Wherein in an embodiment, described charging driver part has charging and rotates wheel, charging driven pulley, charging transmission band and charging driving element, described charging rotates wheel and is connected to one of them described feed shaft, described charging driven pulley is connected to described charging and drives element, described charging transmission band connects described charging and rotates wheel and described charging driven pulley, and described charging drives element to pass through to drive described charging drive to rotate to drive described charging to rotate wheel and the rotation of described feed shaft。
Wherein in an embodiment, described cloth storage device also has discharge roller group, described discharge roller group includes discharging axle and discharging driver part, the quantity of described discharging axle is two, described discharging axle is connected in the notch edges of described cloth storage trough, described discharging axle and described feed shaft are in relative position, two described discharging axles are parallel and contact coordinates, the traverse of described cylinder cloth can be supplied between two described discharging axles, described discharging driver part is connected to one of them described discharging axle for driving this discharging axle to rotate, and drive another discharging axle to rotate in opposite directions, described cylinder cloth in described cloth storage trough is pulled out by two described discharging axles rotated in opposite directions, described control device is electrically connected at described discharging driver part。
Wherein in an embodiment, described discharging driver part has discharging and rotates wheel, discharging driven pulley, discharging transmission band and discharging driving element, described discharging rotates wheel and is connected to one of them described discharging axle, described discharging driven pulley is connected to described discharging and drives element, described discharging transmission band connects described discharging and rotates wheel and described discharging driven pulley, and described discharging drives element to pass through to drive described discharging drive to rotate to drive described discharging to rotate wheel and the rotation of described discharging axle。
The cloth storage device that this utility model relates to, including cloth storage trough, storage cloth detecting element and control device;Cloth storage trough is used for storage barrel cloth。The quantity of storage cloth detecting element is at least two, and storage cloth detecting element is connected to the inwall of cloth storage trough and upper and lower distribution, for the height of detection cloth storage trough inner core cloth。When the storage cloth detecting element being positioned below in cloth storage trough detects tin cloth, namely represent in cloth storage trough that there is a cloth, control device and provide signal and stop work feed to upstream equipment;When storage cloth detecting element above in cloth storage trough is not detected by tin cloth, represent that cloth storage trough inner core cloth can not meet production needs, control device and provide signal to upstream equipment work feed。
Accompanying drawing explanation
Fig. 1 is this utility model one embodiment automated sewing cloth bag system schematic;
Fig. 2 is the plaiting limit device of the automated sewing cloth bag system shown in Fig. 1, doubling-up device cooperation schematic diagram;
Fig. 3 is the cloth storage device of the automated sewing cloth bag system shown in Fig. 1, moves material device, Scissoring device and seaming device cooperation schematic diagram;
Fig. 4 is A place enlarged diagram in Fig. 3;
Fig. 5 is the seaming device schematic diagram of the automated sewing cloth bag system shown in Fig. 1;
Fig. 6 is the cloth storage device of the automated sewing cloth bag system shown in Fig. 1, moves material device, Scissoring device, seaming device and material collecting device cooperation schematic diagram;
Fig. 7 is B place enlarged diagram in Fig. 6;
Fig. 8 is the automated sewing cloth bag system operation logic figure shown in Fig. 1。
Description of reference numerals
10, automated sewing cloth bag system;100, board;200, feeding device;210, feeding shaft;220, feeding driver part;230, detection part;300, plaiting limit device;310, the first support;320, the second support;330, blowing mouth;400, sew cloth limit device;410, selvedge sewing machine;420, sensing parts;430, compress bar;500, doubling-up device;510, bracing frame;520, set square;530, annular stop frame;540, turning-bar;550, cloth wheel is expanded;560, transiting rod;570, railing;600, cloth storage device;610, cloth storage trough;620, feed roller group;621, feed shaft;622, charging rotates wheel;623, charging driven pulley;624, charging transmission band;625, charging drives element;630, discharge roller group;631, discharging axle;700, material device is moved;710, material arm is moved;720, laterally move material and drive element;730, longitudinally move material and drive element;800, Scissoring device;810, shearing knife;820, cutting driver part;900, seaming device;910, joint close sewing machine;911, sewing syringe needle;920, base;930, base moves driver part;940, holding pad;941, sewing passage;942, cutting passage;950, binder driver part;960, compressing rod;1000, material collecting device;1010, material collecting arm;1020, horizontal rewinding drives element;1030, longitudinal rewinding drives element;20, cloth cylinder;210, cylinder cloth;30, cloth bag intermediate;310, cloth bag。
Detailed description of the invention
For the ease of understanding this utility model, below with reference to relevant drawings, this utility model is described more fully。Accompanying drawing gives preferred embodiment of the present utility model。But, this utility model can realize in many different forms, however it is not limited to embodiment described herein。On the contrary, the purpose providing these embodiments is to make the understanding to disclosure of the present utility model more thorough comprehensively。
It should be noted that be referred to as " being fixed on " another element when element, it can directly on another element or can also there is element placed in the middle。When an element is considered as " connection " another element, it can be directly to another element or may be simultaneously present centering elements。
Unless otherwise defined, all of technology used herein and scientific terminology are identical with belonging to the implication that those skilled in the art of the present utility model are generally understood that。The purpose describing specific embodiment it is intended merely to herein, it is not intended that in restriction this utility model at term used in the description of the present utility model。Term as used herein "and/or" includes the arbitrary and all of combination of one or more relevant Listed Items。
Shown in Figure 1, present embodiments provide a kind of automated sewing cloth bag system 10。This automated sewing cloth bag system 10 includes board 100, feeding device 200, plaiting limit device 300, the limit device 400 that sews cloth, doubling-up device 500, cloth-pulling device, cloth storage device 600, Scissoring device 800, moves material device 700, seaming device, material collecting device 1000 and control device。Above-mentioned feeding device 200, plaiting limit device 300, the limit device 400 that sews cloth, doubling-up device 500, cloth-pulling device, cloth storage device 600, Scissoring device 800, move the order distribution successively of material device 700, seaming device, material collecting device 1000。
Shown in Figure 1, feeding device 200 has feeding shaft 210, feeding driver part 220 and detection part 230。Feeding shaft 210 is connected to board 100, and feeding shaft 210 is used for wearing cloth cylinder 20。Feeding driver part 220 is connected to feeding shaft 210 for by driving feeding shaft 210 rotation to drive cloth cylinder 20 rotation to carry out work feed, controlling device and be electrically connected at feeding driver part 220。Detection part 230 is located on board 100 and toward cloth cylinder 20, for the position on the lower edge of detection cloth cylinder 20, controls device and is electrically connected at detection part 230。
Shown in Figure 1, plaiting limit device 300 has two flanging elements。Two flanging elements are oppositely arranged on board 100。Between two flanging elements, there is the interval for cylinder cloth 210 traverse。Flanging element is for folding the selvedge of cylinder cloth 210 both sides。
In the present embodiment, plaiting limit device 300 also includes blowing control side member。Blowing control side member has multiple blowing mouth 330 and the blowing for driving blowing mouth 330 to dry drives element。Multiple blowing mouths 330 are located on board 100 and are distributed in the both sides of a cloth 210 travel path。Blowing mouth 330 keeps this dual-side to be in turnover state toward the side of cylinder cloth 210 for the blowing of cylinder cloth 210 dual-side, and cylinder cloth 210 is in the dual-side of turnover state and enters flanging element。Control device and be electrically connected at blowing driving element。
Blowing control side member also has two the first supports 310 and two the second supports 320。First support 310 is arranged on board 100 and the major axis of the first support 310 is vertical with cylinder cloth 210 direct of travel。Between two the first supports 310, there is interval。The two ends of the second support 320 are connected on two the first supports 310。Blowing mouth 330 is distributed on two the second supports 320。Second support 320 position on the first support 310 is adjustable。The blowing mouth 330 position on the second support 320 is adjustable。
Shown in Figure 1, the limit device 400 that sews cloth is arranged on board 100, the selvedge after folding for sewing cylinder cloth 210 both sides。In the present embodiment, the limit device 400 that sews cloth has two selvedge sewing machines 410。Two selvedge sewing machines 410 are oppositely arranged on board 100。Between two selvedge sewing machines 410, there is the interval for cylinder cloth 210 traverse。Selvedge sewing machine 410 is used for the selvedge after sewing cylinder cloth 210 both sides fold。Control device and be electrically connected at selvedge sewing machine 410。
The limit device 400 that sews cloth also has sensing parts 420。The quantity of sensing parts 420 is two; two sensing parts 420 are separately positioned on selvedge sewing machine 410; whether the sewing machine syringe needle for detection the two selvedge sewing machine 410 is parked in highest order; ensure to sew cloth every time the jerk of the shutdown of limit device 400 (or automated sewing cloth bag system 10) and/or the limit device 400 (or automated sewing cloth bag system 10) that sews cloth time, the sewing machine syringe needle of two selvedge sewing machines 410 is all in the highest order of its moving position。Control device and be electrically connected at sensing parts 420。
The limit device 400 that sews cloth also has compress bar 430。Compress bar 430 is horizontally set on board 100, and has the interval for cylinder cloth 210 traverse after selvedge sewing machine 410 sewing between compress bar 430 and board 100。Compress bar 430 is for pressing the cylinder cloth 210 after selvedge sewing machine 410 sewing, it is to avoid the lifting of height when entering doubling-up device 500 and a cloth 210 is started, affect the sewing of selvedge sewing machine 410。
Shown in Fig. 1 and Fig. 2, doubling-up device 500 is located on board, for by cylinder cloth 210 along its center line doubling, the direct of travel bending of the cylinder cloth 210 after doubling。
In the present embodiment, doubling-up device 500 has bracing frame 510, set square 520, annular stop frame 530 and turning member。Bracing frame 510 is connected to the top of board 100 and bracing frame 510 higher than board 100。
Annular stop frame 530 is connected on bracing frame 510。Set square 520 is in isosceles triangle。Set square 520 is connected on bracing frame 510, and set square 520 wears annular stop frame 530。The bottom surface of set square 520 is parallel with the running face of cylinder cloth 210。The base of set square 520 is used for receiving upward, transitional cylinder cloth 210。Turning member is located on bracing frame 510 and is positioned at the lower section of set square 520, and the drift angle tip of set square 520 is towards turning member。Cylinder cloth 210 is through set square 520, and one of them side of cylinder cloth 210 converges with another side after walking around set square 520 1 hypotenuse and enters turning member。
Turning member has two turning-bars 540。Two turning-bars 540 are connected to bracing frame 510。There is between two turning-bars 540 interval of cylinder cloth 210 traverse after for doubling。The axis of turning-bar 540 is positioned at approximately the same plane with the vertical line on set square 520 base。
At least two that also has doubling-up device 500 expands cloth wheel 550。Expand cloth wheel 550 and be connected on annular stop frame 530 and toward set square 520, and have at least one to expand the cloth wheel 550 hypotenuse corresponding to set square 520, the side of the cylinder cloth 210 for extending and flatten on set square 520。
Doubling-up device 500 also has two railings 570, and two railings 570 are connected on bracing frame 510, and the height that railing 570 is on bracing frame 510 is between the drift angle and its base of set square 520。
Doubling-up device 500 also has transiting rod 560。Transiting rod 560 is arranged on the top of bracing frame 510。The height on the base of set square 520 is lower than transiting rod 560。The base of set square 520 is parallel with transiting rod 560。
Cloth-pulling device is arranged on board 100, and for pulling a cloth 210 to sequentially pass through flanging element, sew cloth limit device 400 and doubling-up device 500。Cloth-pulling device has cloth drawing axle, driven shaft and granny rag driver part。Cloth drawing axle and driven shaft are both connected on board 100。There is between cloth drawing axle and driven shaft the interval for cylinder cloth 210 traverse。Granny rag driver part is connected to cloth drawing axle for by driving cloth drawing axle rotation to pull a cloth 210 to advance。Control device and be electrically connected at granny rag driver part。
Shown in Figure 3, cloth storage device 600 has cloth storage trough 610 and at least two storage cloth detecting element (not shown)。Cloth storage trough 610 is between cloth-pulling device and Scissoring device 800。Cloth storage trough 610 is for storing the cylinder cloth 210 from cloth-pulling device pull-out, and storage cloth detecting element is connected to the inwall of cloth storage trough 610 and upper and lower distribution, for the height of detection cloth storage trough 610 inner core cloth 210。Control device and be electrically connected at storage cloth detecting element。
Cloth storage device 600 also has feed roller group 620。Feed roller group 620 includes feed shaft 621 and charging driver part。The quantity of feed shaft 621 is two。Feed shaft 621 is connected in the notch edges of cloth storage trough 610。Two feed shaft 621 are parallel and contact coordinates。Cylinder cloth 210 can be supplied between two feed shaft 621 to pass, charging driver part is connected to one of them feed shaft 621 for driving this feed shaft 621 to rotate, and driving another feed shaft 621 to rotate in opposite directions, cylinder cloth 210 is drawn in cloth storage trough 610 by two feed shaft rotated in opposite directions 621。Control device and be electrically connected at charging driver part。
Charging driver part has charging and rotates wheel 622, charging driven pulley 623, charging transmission band 624 and charging driving element 625。Charging rotates wheel 622 and is connected to one of them feed shaft 621, and charging driven pulley 623 is connected to charging and drives element 625, and charging transmission band 624 connects charging and rotates wheel 622 and charging driven pulley 623。Charging drives element 625 by driving charging drive to rotate to drive charging rotation wheel 622 and feed shaft 621 to rotate。In the present embodiment, feed roller group 620 can be used simultaneously as the function of cloth-pulling device, namely in the present embodiment, feed roller group 620 adopts same device with cloth-pulling device, adopts feed roller group 620 to realize the function of charging and granny rag。
Cloth storage device 600 also has discharge roller group 630。Discharge roller group 630 includes discharging axle 631 and discharging driver part。The quantity of discharging axle 631 is two。Discharging axle 631 is connected in the notch edges of cloth storage trough 610, and discharging axle 631 and feed shaft 621 are in relative position, and two discharging axles 631 are parallel and contact coordinates, and cylinder cloth 210 can be supplied between two discharging axles 631 to pass。Discharging driver part is connected to one of them discharging axle 631 for driving this discharging axle 631 to rotate, and drives another discharging axle 631 to rotate in opposite directions。Cylinder cloth 210 in cloth storage trough 610 is pulled out by the discharging axle 631 that two rotate in opposite directions。Control device and be electrically connected at discharging driver part。
Discharging driver part has discharging and rotates wheel, discharging driven pulley, discharging transmission band and discharging driving element。Discharging rotates wheel and is connected to one of them discharging axle 631, discharging driven pulley is connected to discharging and drives element, discharging transmission band connects discharging rotation takes turns and discharging driven pulley, and discharging drives element by driving the rotation of discharging drive to drive discharging rotation wheel and discharging axle 631 to rotate。
Shown in Fig. 3 and Fig. 4, move material device 700 for moving the cylinder cloth 210 after doubling out in the discharge roller group 630 of cloth storage device 600 to Scissoring device 800 place。In the present embodiment, move material device 700 there is shifting material arm 710 and move material driver part。Move material arm 710 and be connected to board 100。Shifting material driver part is arranged on board 100 and is connected to shifting material arm 710, pushes down a cloth 210 for driving shifting material arm 710 to move and cylinder cloth 210 moves to seaming device 900 place to board 100。Control device and be electrically connected at shifting material driver part。
Move and expect that driver part includes laterally moving material and drives element 720 and longitudinal material that moves to drive element 730。Laterally move and expect to drive element 720 to be connected to shifting material arm 710 for driving shifting material arm 710 transverse shifting。Longitudinally move and expect to drive element 730 to be connected to shifting material arm 710 for driving shifting material arm 710 to vertically move。Control device is electrically connected at laterally shifting material and drives element 720 and longitudinal shifting to expect to drive element 730。
Move material device 700 and also there is metering unit。Metering unit is connected on shifting material arm 710, moves, for measuring, the distance that material arm 710 moves。Control device and be electrically connected at metering unit。
Shown in Fig. 4 and Fig. 5, Scissoring device 800 is located on board 100, for according to default size and along being perpendicular to the cylinder cloth 210 after the cutting of center line direction folds, forms cloth bag intermediate 30。
In the present embodiment, Scissoring device 800 has shearing knife 810 and cutting driver part 820。Shearing knife 810 is movably connected on board 100。Cutting driver part 820 is connected to shearing knife 810 for by the cylinder cloth 210 after driving shearing knife 810 to move cutting doubling。Control device and be electrically connected at cutting driver part 820。
Scissoring device 800 also has cutting sensing element。Cutting sensing element is connected to board 100 and toward board 100 for detecting the cylinder cloth 210 after whether having doubling on board 100。Control device and be electrically connected at cutting sensing element。
Scissoring device 800 also has cutting location-plate and location-plate driver part。Having cutting passage 942 on cutting location-plate, location-plate driver part is arranged on board 100。Location-plate driver part is connected to location-plate for driving location-plate to move the cylinder cloth 210 after pushing down doubling。Shearing knife 810 is along the cylinder cloth 210 after cutting passage 942 cutting doubling。Control device and be electrically connected at location-plate driver part。
Shown in Fig. 3 and Fig. 5, seaming device 900 is located on board 100, forms cloth bag 310 for along cutting edge sewing cloth bag intermediate 30。In the present embodiment, seaming device 900 has holding pad 940, binder driver part 950, base 920, base move driver part 930 and joint close sewing machine 910, holding pad 940 has the sewing passage 941 of strip, and the length of sewing passage 941 is not less than cloth bag intermediate 30 and treats the side edge length of sewing。Holding pad 940 is connected on board 100。Binder driver part 950 is connected to holding pad 940 and moves to push down cloth bag intermediate 30 for driving pressure flitch 940, and sewing passage 941 is aligned in cloth bag intermediate 30 and treats two sides of sewing。In the present embodiment, cutting location-plate and holding pad 940 unite two into one, it is possible to adopt holding pad 940 to realize, namely it is parallel to be provided simultaneously with sewing passage 941 and cutting passage 942, sewing passage 941 and cutting passage 942 on holding pad 940。Now, sewing passage 941 is close to joint close sewing machine 910, and cutting passage 942 is close to discharge roller group 630。And can being fixed on joint close sewing machine 910 by cutting driver part 820, shearing knife 810 is parallel with sewing syringe needle 911, and shearing knife 810 is aligned in cutting passage 942 and sewing passage 941 respectively with sewing syringe needle 911。When joint close sewing machine 910 presses on board 100, shearing knife 810 is parallel with sewing syringe needle 911 with pressing at present, and shearing knife 810 and sewing syringe needle 911 respectively enter in cutting passage 942 and sewing passage 941, now, while sewing, the operation of cutting can be completed。When joint close sewing machine 910 is by after complete for the side sewing of cloth bag intermediate 30 (now cloth bag intermediate 30 is also attached on the cylinder cloth 210 after whole doubling), shearing knife 810 is shown in that cloth bag intermediate 30 separates with cylinder cloth 210 cutting after the doubling in discharge roller group 630。Saving the time further, save operation, production efficiency improves further。
In the present embodiment, the SEWING SEQUENCE of joint close sewing machine 910 is as follows: the side that first the cylinder cloth 210 after doubling arrive joint close sewing machine 910 place at first carries out sewing, and joint close sewing machine 910 coordinates holding pad 940 to carry out the sewing of this side, and now shearing knife 810 does not work。Then joint close sewing machine 910 and holding pad 940 move again to a relative side and carry out sewing, and now shearing knife 810 works simultaneously。
Joint close sewing machine 910 is fixed on base 920。Base moves driver part 930 and is located on board 100 and is connected to base 920, for by driving base 920 to move and drive joint close sewing machine 910 to move so that the sewing syringe needle 911 of joint close sewing machine 910 is along the side of sewing passage 941 sewing cloth bag intermediate 30。
Seaming device 900 also includes slide rail and slide block。Base 920 is connected on slide block, and slide block is arranged on slide rail and can slide relative to slide rail, and base moves driver part 930 and is connected to slide block and drives base 920 and joint close sewing machine 910 to move by driving slide block to move。
Seaming device 900 also includes compressing rod 960 and depression bar driver part。Compressing rod 960 is movably connected on joint close sewing machine 910。Depression bar driver part is located on joint close sewing machine 910 and is connected to compressing rod 960, for pushing down cloth bag intermediate 30 by driving compressing rod 960 to move towards board 100。
Seaming device 900 also includes inspection material parts。Inspection material parts are located on joint close sewing machine 910 and toward board 100, whether have cloth bag intermediate 30 on detection board 100。
Shown in Fig. 6 and Fig. 7, material collecting device 1000 has material collecting arm 1010 and rewinding driver part。Material collecting arm 1010 is connected to board 100。Rewinding driver part is arranged on board 100 and is connected to material collecting arm 1010, moves the cloth bag after pushing down joint close to board 100 for driving material collecting arm 1010 and cloth bag removes board 100。Control device and be electrically connected at rewinding driver part。
Rewinding driver part includes horizontal rewinding and drives element 1020 and longitudinal rewinding to drive element 1030。Horizontal rewinding drives element 1020 to be connected to material collecting arm 1010 for driving material collecting arm 1010 transverse shifting。Longitudinal rewinding drives element 1030 to be connected to material collecting arm 1010 for driving material collecting arm 1010 to vertically move。Control device and be electrically connected at horizontal rewinding driving element 1020 and longitudinal rewinding driving element 1030。
Shown in Figure 8, the automated sewing cloth bag system 10 that the present embodiment relates to, for cloth bag when manufacturing in operation, by the plaiting limit of cylinder cloth 210, the limit that sews cloth of cylinder cloth 210, the doubling of cylinder cloth 210, the traveling of cylinder cloth 210, the cutting of cloth bag intermediate 30, cloth bag intermediate 30 seaming device 900 close as a whole cloth bag 310, and do not need manual intervention, realizing automated production, production efficiency is high。
The automated sewing cloth bag system 10 that the present embodiment relates to, has plaiting limit device 300, the limit device 400 that sews cloth, doubling-up device 500, cloth-pulling device, Scissoring device 800, a seaming device 900。Being provided with plaiting limit device 300, the blowing mouth 330 controlling side member by drying keeps this dual-side to be in turnover state toward the side of cylinder cloth 210 for drying to the dual-side after cylinder cloth 210 flanging。Cylinder cloth 210 is in two sides of turnover state and respectively enters flanging element, and two folding cylinder cloth 210 both sides of flanging element are in the selvedge of turnover state。The plaiting limit device 300 that this utility model relates to, it is achieved that the selvedge of the folding cylinder cloth 210 of automatization, has saved manpower, has improve production efficiency。It is provided with the limit device 400 that sews cloth, the both sides of a cloth 210 travel path it are distributed in by two selvedge sewing machines 410, at the interval that cylinder cloth 210 has between two selvedge sewing machines 410, two selvedge sewing machines 410 can simultaneously sewing through the selvedge of the cylinder cloth 210 of the lower section of selvedge sewing machine 410, selvedge sewing simultaneously to 210 two sides of cylinder cloth, being greatly saved the time, production efficiency is doubled。It is provided with doubling-up device 500, including bracing frame 510, set square 520, annular stop frame 530 and turning member。The setting of set square 520 so that the cylinder cloth 210 received from the base of set square 520 enters the plate face of set square 520。Annular stop frame 530 is connected on bracing frame 510, and set square 520 wears annular stop frame 530, it is ensured that the cylinder cloth 210 entered on the plate face of set square 520 will not shift, and the drift angle tip of set square 520 is towards the turning member being positioned at below set square 520。When cylinder cloth on the plate face of set square 520 210 is through set square 520, one of them side of cylinder cloth 210 converges with another side of cylinder cloth 210 and enters turning member after walking around 520 1 hypotenuses of set square。Enter the two-layer cylinder cloth 210 after the doubling of the cylinder cloth 210 i.e. cost after turning member。Further, after turning member, namely the direct of travel of former cylinder cloth 210 changes after the hypotenuse doubling of set square 520 because of cylinder cloth 210。It is provided with cloth storage device 600, including cloth storage trough 610, storage cloth detecting element and control device。Cloth storage trough 610 is for storage barrel cloth 210。The quantity of storage cloth detecting element is at least two, and storage cloth detecting element is connected to the inwall of cloth storage trough 610 and upper and lower distribution, for the height of detection cloth storage trough 610 inner core cloth 210。When the storage cloth detecting element being positioned below in cloth storage trough 610 detects tin cloth 210, namely represent in cloth storage trough 610 that there is a cloth 210, control device and provide signal and stop work feed to upstream equipment;When storage cloth detecting element above in cloth storage trough 610 is not detected by tin cloth 210, represent that cloth storage trough 610 inner core cloth 210 can not meet production needs, control device and provide signal to upstream equipment work feed。It is provided with Scissoring device 800 and is connected to shearing knife 810 for by the cylinder cloth 210 after driving shearing knife 810 to move cutting doubling by cutting driver part 820, achieve the cylinder cloth 210 after automatization's cutting doubling, saving manpower, save the time, production efficiency is high。It is provided with seaming device 900, is connected to holding pad 940 by binder driver part 950 and moves to push down cloth bag intermediate 30 for driving pressure flitch 940, and sewing passage 941 is aligned in cloth bag intermediate 30 and treats two sides of sewing。Move by driving base 920 to move the joint close sewing machine 910 that band is automatically connected on base 920 so that the sewing syringe needle 911 of joint close sewing machine 910 is along the side of the sewing passage 941 sewing cloth bag intermediate 30 of holding pad 940。The seaming device 900 for sewing cloth bag intermediate 30 that this utility model relates to, it is achieved that the location of cloth bag intermediate 30 and sewing, has saved the action of artificial location, location and sewing are united two into one, forming a systematized operation, save the time, production efficiency is high。
Each technical characteristic of embodiment described above can combine arbitrarily, for making description succinct, the all possible combination of each technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics is absent from contradiction, all it is considered to be the scope that this specification is recorded。
Embodiment described above only have expressed several embodiments of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to this utility model the scope of the claims。It should be pointed out that, for the person of ordinary skill of the art, without departing from the concept of the premise utility, it is also possible to make some deformation and improvement, these broadly fall into protection domain of the present utility model。Therefore, the protection domain of this utility model patent should be as the criterion with claims。

Claims (5)

1. a cloth storage device, it is characterised in that include cloth storage trough, storage cloth detecting element and control device;The quantity of described storage cloth detecting element is at least two, described cloth storage trough is between cloth-pulling device and Scissoring device, described cloth storage trough is for storing the cylinder cloth pulled out from described cloth-pulling device, described storage cloth detecting element is connected to the inwall of described cloth storage trough and upper and lower distribution, for detecting the height of described cylinder cloth in described storage cloth, described control device is electrically connected at described storage cloth detecting element。
2. cloth storage device according to claim 1, it is characterized in that, described cloth storage device also has feed roller group, described feed roller group includes feed shaft and charging driver part, the quantity of described feed shaft is two, described feed shaft is connected in the notch edges of described cloth storage trough, two described feed shaft are parallel and contact coordinates, the traverse of described cylinder cloth can be supplied between two described feed shaft, described charging driver part is connected to one of them described feed shaft for driving this feed shaft to rotate, and drive another feed shaft to rotate in opposite directions, described cylinder Bradley is proceeded in described cloth storage trough by two described feed shaft rotated in opposite directions, described control device is electrically connected at described charging driver part。
3. cloth storage device according to claim 2, it is characterized in that, described charging driver part has charging and rotates wheel, charging driven pulley, charging transmission band and charging driving element, described charging rotates wheel and is connected to one of them described feed shaft, described charging driven pulley is connected to described charging and drives element, described charging transmission band connects described charging and rotates wheel and described charging driven pulley, and described charging drives element to pass through to drive described charging drive to rotate to drive described charging to rotate wheel and the rotation of described feed shaft。
4. cloth storage device according to claim 2, it is characterized in that, described cloth storage device also has discharge roller group, described discharge roller group includes discharging axle and discharging driver part, the quantity of described discharging axle is two, described discharging axle is connected in the notch edges of described cloth storage trough, described discharging axle and described feed shaft are in relative position, two described discharging axles are parallel and contact coordinates, the traverse of described cylinder cloth can be supplied between two described discharging axles, described discharging driver part is connected to one of them described discharging axle for driving this discharging axle to rotate, and drive another discharging axle to rotate in opposite directions, described cylinder cloth in described cloth storage trough is pulled out by two described discharging axles rotated in opposite directions, described control device is electrically connected at described discharging driver part。
5. cloth storage device according to claim 4, it is characterized in that, described discharging driver part has discharging and rotates wheel, discharging driven pulley, discharging transmission band and discharging driving element, described discharging rotates wheel and is connected to one of them described discharging axle, described discharging driven pulley is connected to described discharging and drives element, described discharging transmission band connects described discharging and rotates wheel and described discharging driven pulley, and described discharging drives element to pass through to drive described discharging drive to rotate to drive described discharging to rotate wheel and the rotation of described discharging axle。
CN201521106027.5U 2015-12-24 2015-12-24 Store up cloth device Active CN205329299U (en)

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Application Number Priority Date Filing Date Title
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Application Number Priority Date Filing Date Title
CN201521106027.5U CN205329299U (en) 2015-12-24 2015-12-24 Store up cloth device

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CN205329299U true CN205329299U (en) 2016-06-22

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