CN204365753U - A kind of automatic bending system of elevator hall's door-plate based on streamline - Google Patents

A kind of automatic bending system of elevator hall's door-plate based on streamline Download PDF

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Publication number
CN204365753U
CN204365753U CN201420784713.7U CN201420784713U CN204365753U CN 204365753 U CN204365753 U CN 204365753U CN 201420784713 U CN201420784713 U CN 201420784713U CN 204365753 U CN204365753 U CN 204365753U
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China
Prior art keywords
door
plate
elevator hall
frame
workpiece
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Withdrawn - After Issue
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CN201420784713.7U
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Chinese (zh)
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高德祥
徐成杰
冯铁英
翁海潮
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Hangzhou Xo Lift Co Ltd
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Hangzhou Xo Lift Co Ltd
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Abstract

The utility model discloses a kind of automatic bending system of elevator hall's door-plate based on streamline, comprise bender and work transfer device, work transfer device comprises input section, feeding section and deferent segment; Input section and deferent segment on be equipped with belt conveyor, described feeding section comprises: traversing platform, is slidably fitted in frame, for drive workpiece near or away from bender; Pusher, is arranged on traversing platform, for the workpiece be on traversing platform is pushed into machining position; Feeding clip mechanism, is fixed on traversing platform, makes workpiece follow traversing platform depart from bender for holding workpiece; Bending follower, falls to traversing platform for following the workpiece after helping bending.The automatic bending system of elevator hall's door-plate based on streamline of the present utility model can meet the automatic bending of elevator hall's door-plate of different in width, and size range can between the door-plate width 400-500 of the Room, and also can be used for the elevator car wall bending of this specification, applicability is strong.

Description

A kind of automatic bending system of elevator hall's door-plate based on streamline
Technical field
The utility model relates to the elevator components panel beating class of mechanical manufacturing field, specifically relates to a kind of automatic bending system of elevator hall's door-plate based on streamline.
Background technology
In elevator components, there is a large amount of sheet metal parts, especially elevator hall's door-plate, for the elevator of 15 stops, need 30 pieces, Room door-plate altogether.
Elevator hall's door-plate mode of production domestic at present has following several:
1. artificial+numerical control bender: after elevator hall's door-plate automatic punching, by artificial loading and unloading, and the bending being realized plate by the action of floor push control numerical control bender.Its feature is a small investment, and the later stage is manually many, and product quality is subject to the impact of workman's technical merit and fluctuates, suitable small-scale production.
2. robot bending: after elevator hall's door-plate automatic punching, robot material grasping, robot plate location, robot material grasping and numerical control bender coordinate the bending of control realization plate by program.Its feature is large compared with artificial+numerical control bender for once investing, and later stage manpower intervention is few, constant product quality, and robot bending efficiency is low, suitable small-scale production.
3. automatic panel beating production line: external savart Buddhist nun Buddhist nun, the automatic panel beating production line of the brand such as brave and fierce, its bending principle is that plate is motionless, utilizes the upset of mould to realize the bending of plate.Automatic its feature of panel beating production line is that once investment is large, and be generally 1500-2500 ten thousand yuan, wherein savart Buddhist nun Buddhist nun production line can adapt to the making of multiple sheet metal component, and flexibility is higher but efficiency is lower, and produce 1 piece of Room door-plate at present and need 45 seconds, large-scale production cost is high.Brave and fierce production line is that panel beating produces special plane line, only adapts to a kind of sheet metal component and makes, and as Room door-plate makes, its efficiency is very high, produces 1 piece of door-plate and only needs 12 seconds, special suitable for mass production.
Utility model content
The utility model provides a kind of automatic bending system of elevator hall's door-plate based on streamline, workpiece automatic conveying device and automatic bar folder is adopted to combine, achieve the automation bending of elevator hall's door-plate, high to the bending efficiency of elevator hall's door-plate, be suitable for the equipment modernization transformation under manually existing+numerical control bender production model, the second investment cost is low simultaneously.
Based on the automatic bending system of elevator hall's door-plate of streamline, comprise bender and work transfer device, described work transfer device comprises the frame being provided with bearing platform, and described bearing platform is divided into input section, feeding section and deferent segment successively along work piece delivery direction; Described input section and deferent segment are equipped with for carrying and shifting the belt conveyor of workpiece, described feeding section comprises:
Traversing platform, is slidably fitted in frame, for drive workpiece near or away from bender;
Pusher, is arranged on traversing platform, for the workpiece be on traversing platform is pushed into machining position;
Feeding clip mechanism, is fixed on traversing platform, makes workpiece follow traversing platform depart from bender for holding workpiece;
Bending follower, falls to traversing platform for following the workpiece after helping bending.
As preferably, described input section and deferent segment are equipped with lifting platform, and described belt conveyor comprises feeding belt and outfeed belt, is arranged on respectively on corresponding lifting platform.The setting of lifting platform, ensure traversing platform drive workpiece near or away from bender time, avoid the wearing and tearing to feeding belt and outfeed belt; After elevator hall's door-plate is transported to position, feeding belt and outfeed belt decline simultaneously; After bending completes, feeding belt and outfeed belt rise, and elevator hall's door-plate is delivered to next operation.
As preferably, described lifting platform comprises the conveyer belt frame for installing belt conveyor, and is arranged in frame for driving two cylinders of conveyer belt frame; The two ends, bottom of described conveyer belt frame are hinged on the piston rod of a corresponding cylinder respectively.Adopt articulated manner that two cylinders are installed, ensure the stability of air cylinder driven lifting platform.
As preferably, described bending follower comprises: for helping the turnover panel of workpiece; Be fixed on the guiding tooth bar bottom turnover panel; The driven wheel that switching is engaged in frame and with described tooth bar.Adopt driving gear drives, ensure that the kinematic accuracy of turnover panel, ensure the stability in turnover panel motion process simultaneously.
As preferably, be fixed with the guide plate of arc bottom described turnover panel, described guiding tooth bar is arranged on the side in the guide plate center of circle dorsad, is provided with gathering sill at guide plate towards the side in the center of circle, in described frame switching have to coordinate with gathering sill in directive wheel.
As preferably, in described frame, switching has outer directive wheel, and the periphery of this outer directive wheel is provided with the cannelure matched with the tooth that leads.When interior directive wheel and outer directive wheel use simultaneously, ensure that the guiding accuracy of guide plate, further ensure turnover panel with line position, avoid interfering with workpiece.
As preferably, bearing platform is provided with the opening corresponding with turnover panel position, and the edge of described turnover panel is provided with the flexible closure cover hung down into opening.The setting of flexible closure cover, avoids external impurities to enter in bending follower, ensure that the service life of driven wheel.
As preferably, deferent segment is provided with: be arranged on the elevating bracket in frame; Be arranged on the sensor on elevating bracket; Be hinged on re-packing for trigger sensor on elevating bracket; Be connected to elevating bracket and the back-moving spring that re-packs between re-packing.After elevator hall's door-plate is transported to position, triggering re-packs, and then trigger sensor, belt conveyor is out of service, and traversing platform brings into operation, now, elevating bracket declines, and avoids touching sensor in the elevator hall's door-plate output procedure after bending, and elevator hall's door-plate is away from after above sensor, sensor rises to initial position, and the position of carrying out next elevator hall door-plate is detected.
As preferably, described frame is fixed with fairlead, described elevating bracket activity is located in fairlead.The setting of fairlead, ensures that elevating bracket is installed predetermined direction and moved back and forth, avoids run-off the straight, ensure triggering precision.
As preferred further, described fairlead inner chamber and elevating bracket have the on-circular cross-section cooperatively interacted.Select noncircular cross section, avoid elevating bracket self to rotate.
The automatic bending system of elevator hall of the present utility model door-plate, based on the production model of manually existing+numerical control bender, under the background that machine is substituted, ensure making full use of of existing equipment, automatic bending machine+automatic conveying device cooperatively interacts operation, achieves the full-automatic bending of elevator hall's door-plate.
Bending can be carried out with four automatic bending systems of the present utility model respectively in elevator hall's door-plate four limit, connects therebetween with work transfer device streamline.Production efficiency is higher, produces 1 piece of Room door-plate and only needs 20 seconds, suitable for mass production.
Compared with prior art, the beneficial effects of the utility model are embodied in:
1, the automatic bending system of elevator hall's door-plate based on streamline of the present utility model can meet the automatic bending of elevator hall's door-plate of different in width, and size range can between the door-plate width 400-500 of the Room, and also can be used for the elevator car wall bending of this specification, applicability is strong.
2, the automatic bending system of elevator hall's door-plate based on streamline of the present utility model is specially adapted to the equipment modernization transformation that production scale of enterprise expands gradually, realizes intelligence manufacture unmanned.By dropping into progressively output gradually, realizing Nei Shengshi and increasing.
3, the automatic bending system of elevator hall's door-plate based on streamline of the present utility model really can realize machine substitution, increases efficiency by downsizing payrolls obviously, can realize uninterruptedly producing for 24 hours, while reducing production cost, improves product processing quality and efficiency.
Accompanying drawing explanation
Fig. 1 is the automatic bending system of elevator hall's door-plate based on streamline of the present utility model.
Fig. 2 is the left view of the automatic bending system of elevator hall's door-plate based on streamline of the present utility model.
Fig. 3 is the top view of the automatic bending system of elevator hall's door-plate based on streamline of the present utility model.
Fig. 4 is the structural representation of the feeding section of the automatic bending system of elevator hall's door-plate based on streamline of the present utility model.
Fig. 5 is China and foreign countries' directive wheel of bending follower, the fit structure schematic diagram between interior directive wheel and guide plate of the automatic bending system of elevator hall's door-plate based on streamline of the present utility model.
Fig. 6 is the fit structure schematic diagram in the bending follower of the automatic bending system of elevator hall's door-plate based on streamline of the present utility model between driven wheel and guide plate.
Fig. 7 is the structural representation of the input section of the automatic bending system of elevator hall's door-plate based on streamline of the present utility model.
Fig. 8 is the side view of the section of input shown in Fig. 7.
Fig. 9 is the structural representation of the charging mechanism of the automatic bending system of elevator hall's door-plate based on streamline of the present utility model.
Figure 10 is the structural representation of the pusher of the automatic bending system of elevator hall's door-plate based on streamline of the present utility model.
Figure 11 is the structural representation of the transverse feed mechanism of the automatic bending system of elevator hall's door-plate based on streamline of the present utility model.
Figure 12 is the top view of transverse feed mechanism shown in Figure 11.
Figure 13 is the structural representation of the longitudinal spacing mechanism of the automatic bending system of elevator hall's door-plate based on streamline of the present utility model.
Figure 14 is the structural representation of the traversing platform of the automatic bending system of elevator hall's door-plate based on streamline of the present utility model.
In above-mentioned accompanying drawing:
1, bender; 2, frame; 3, section is inputted; 4, feeding section; 5, deferent segment; 6, transverse feed mechanism; 7, traversing platform; 8, pusher; 9, feeding clip mechanism; 10, bending follower; 11, longitudinal spacing mechanism; 101 follower frames; 102, turnover panel; 103, guide plate; 104, interior directive wheel; 105, outer directive wheel; 106, bearing pin; 107, servomotor; 108, driven wheel; 109, lead tooth bar; 111, angle seat; 112, slide; 113, sensor; 114, elevating bracket; 115, re-pack back-moving spring; 116, can turn and re-pack; 117, guide pin bushing; Cylinder 118; 300, crane; 301, conveyer belt frame; 302, bearing pin; 303, crotch; 304, cylinder; 305, conveyer belt frame; 306, belt conveyor wheel shaft; 307, jackscrew; 308, belt conveyor; 309, servomotor; 310, belt conveyor wheel; 311, driven synchronous pulley; 312, Timing Belt; 313, active synchronization belt wheel; 314, belt conveyor intermediate bracket; 315, servomotor fixed head; 316, work top; 317, brush plate face; 318, brush plate face steelframe; 601, guide bar receiver; 602, synchronous belt bearing; 603, Timing Belt wheel shaft; 604, synchronous pulley; 605, guide rod; 606, jackscrew; 607, jackscrew bearing; 608, guide rod slide; 609, guide rod slide connecting plate; 610, synchronous belt; 611, transverse feed mechanism installing plate; 612, transmission shaft support; 613, power transmission shaft; 614, active synchronization belt wheel; 615, shaft coupling; 616, servomotor erection support; 617, servomotor; 618, synchronous belt clamp; 801, cylinder; 802, line slideway; 803, slide block; 804, cylinder mount frame; 805, cylinder floating joint; 806, slide block contiguous block; 807, push pedal; 808, base plate; 901, cylinder; 902, briquetting; 903, lower cushion block; 904, cylinder mount frame.
Detailed description of the invention
Detailed technology content of the present utility model and embodiment is further described below in conjunction with accompanying drawing.Mark shown in the drawings and embodiment should not regard the restriction to the utility model technology as, any expansion on the utility model basis and increase and be all considered as protection domain of the present utility model.
With reference to accompanying drawing 1, Fig. 2, shown in Fig. 3, a kind of automatic bending system of elevator hall's door-plate based on streamline, comprise a numerical control bender 1, a special plane frame 2, and the one group of bending follower 10 be arranged in frame 2, be arranged on the input section 3 in frame 2, deferent segment 5 and feeding section 4, feeding section 4 comprises the one group of transverse feed mechanism 6 be arranged in frame 2, and the two groups of feeding clip mechanisms 9 be arranged on transverse feed mechanism 6 and two groups of pushers 8, be arranged on one group of plate longitudinal spacing mechanism 11 in frame 2, be arranged on one group of traversing platform 7 in frame 2.
Position relationship between above-mentioned parts and effect thereof are:
Numerical control bender 1 is the machine-tool of automatic bending special plane, is standard device.
Feeding section 4 is provided with transverse feed mechanism 6, transverse feed mechanism 6 comprises traversing platform 7, feeding clip mechanism 9 and pusher 8, and transverse feed mechanism 6 is basic infeed means of automatic material clamping mechanism 9 and pusher 8.To elevator hall's door-plate of different in width, transverse feed mechanism 6 sets different feeding displacement, then by pusher 8, plate is pushed away reality to the backer of numerical control bender 1, ensures bending size.Traversing platform 7, is slidably fitted in frame 2, for drive workpiece near or away from numerical control bender 1; Pusher 8, is arranged on traversing platform 7, for the workpiece be on traversing platform 7 is pushed into machining position; Feeding clip mechanism 9, is fixed on traversing platform 7, makes workpiece follow traversing platform 7 depart from numerical control bender 1 for holding workpiece; Bending follower 10, falls to traversing platform 7 for following the workpiece after helping bending.
Frame 2 is basic platforms that all parts are installed except numerical control bender 1, and frame 2 has installed bending follower 10, input section 3 and deferent segment 5, feeding clip mechanism 9, pusher 8, traversing platform 7, longitudinal spacing mechanism 11 etc.
As shown in Fig. 4, Fig. 5, Fig. 6, bending follower 10 is that upset is risen and upset rising along with during plate bending, plays auxiliary tray effect, and with declining after plate bending, upset declines, and holds plate and reliably declines and do not produce impact.Input section 3 and deferent segment 5 ensure that plate is with the mechanism of streamline form movement, plays plate and vertically moves conveying effect.
Bending follower 10, by follower frame 101 and the turnover panel 102, guide plate 103, outer directive wheel 105 and the interior directive wheel 104 that are arranged in follower frame 101.Turnover panel 102 is work hairbrush panel, can carry out reciprocal flip-flop movement; Guide plate 103 is the rotatable fanning strip of arc, and the rotatable fanning strip of arc is provided with gathering sill towards the side in the center of circle, and opposite side is provided with guiding tooth bar 109; Interior directive wheel 104 is two flanged guiding guide wheels, and its flange coordinates with the gathering sill of guide plate 103 and leads; Outer directive wheel 105 is the guiding guide wheel of band groove, and its groove coordinates with the guiding tooth of the guiding tooth bar 109 of guide plate 103, leads further; The guiding guide wheel of flanged pin guiding guide wheel and band groove is fixed in follower frame 101 by bearing pin 106.Servomotor 107 is fixed in follower frame 101, the driven wheel 108 that the guiding tooth that its spindle nose is equipped with guide plate 103 rotating with arc is meshed.Servomotor 107 rotates, and the driven wheel 108 be contained on servomotor 107 spindle nose drives the rotatable fanning strip of arc and the upset of work hairbrush panel to rotate, and sheet metal component upset during cooperation bending is risen and upset declines.The rotatable guide plate 103 of arc of the guiding guide wheel with groove and flanged pin guiding guide wheel check strap gathering sill and profile of tooth can only be done upset and rise and upset down maneuver.
As shown in Figure 7, Figure 8, input section 3 and deferent segment 5, be arranged in the both sides of bending follower 10, the longitudinal direction for elevator hall's door-plate is carried.To input section 3, comprise work top 316, the crane 300 be arranged in work top 316 installing port, it is with guide rod cylinder 304, belt conveyor 308, belt conveyor intermediate bracket 314, the conveyer belt frame 305 of tape guide groove, belt conveyor to take turns 310 by conveyer belt frame 301, bearing pin 302, crotch 303, two, belt conveyor wheel shaft 306, jackscrew 307, servomotor 309, servomotor fixed head 315, active synchronization belt wheel 313, driven synchronous pulley 311, Timing Belt 312 are formed.Conveyer belt frame 301 and crotch 303, by the connection of bearing pin 302, can avoid the asynchronous interference caused of front and back cylinder.Servomotor 309 rotates, and the active synchronization belt wheel 313 be contained on servomotor spindle nose drives driven synchronous pulley 311 by Timing Belt 312, and the belt conveyor coaxial with driven synchronous pulley 311 is taken turns 310 and rotated, and drives belt conveyor 308 to move by friction.By the degree of tightness of the adjustable belt conveyor 308 of jackscrew 307.
As shown in Figure 9, transverse feed mechanism 6 is provided with two groups of feeding clip mechanisms 9, be made up of cylinder 901, the briquetting 902 being loaded on cylinder 901 club head, lower cushion block 903, cylinder mount frame 904, divide each one group of left and right, declined by cylinder 901, drive briquetting 902 to be pressed on by plate on lower cushion block 903, moved by transverse feed mechanism 6 and plate is return.
As shown in Figure 10, transverse feed mechanism 6 is provided with two groups of pushers 8, is made up of cylinder 801, line slideway 802, slide block 803, cylinder mount frame 804, cylinder floating joint 805, slide block contiguous block 806, push pedal 807, base plate 808.Cylinder 801 is with movable slider contiguous block 806 and push pedal 807 to move by cylinder floating joint 805, and the backer promoting plate and numerical control bender 1 is close to, and line slideway 802 and slide block 803 play the guiding role.Base plate 808 is arranged on transverse feed mechanism 6.
As Figure 11, as shown in figure 12, transverse feed mechanism 6 comprises two groups of guiding parts and one group of drive disk assembly, and it is made up of guide bar receiver 601, synchronous belt bearing 602, Timing Belt wheel shaft 603, synchronous pulley 604, guide rod 605, jackscrew 606, jackscrew bearing 607, guide rod slide 608, guide rod slide connecting plate 609, synchronous belt 610, transverse feed mechanism installing plate 611, synchronous belt clamp 618, servomotor 617, servomotor erection support 616, shaft coupling 615, active synchronization belt wheel 614, power transmission shaft 613, transmission shaft support 612.Servomotor 617 drives active synchronization belt wheel 614 to rotate by power transmission shaft, synchronous belt 610 drives guide rod slide 608 and transverse feed mechanism installing plate 611 to move by synchronous belt clamp 618, can drive and be arranged on two groups of feeding clip mechanisms 9 on transverse feed mechanism installing plate 611 and two groups of pushers 8 carry out transverse shifting, the material grasping realizing plate pushes back and pusher work.Jackscrew 606 plays the effect of adjustment synchronous belt 610 degree of tightness.
As shown in figure 13, frame 2 is provided with plate longitudinal spacing mechanism 11, it by angle seat 111, slide 112, elevating bracket 114, guide pin bushing 117, sensor 113, the back-moving spring 115 that re-packs, can turn re-pack 116, cylinder 118 forms.Plate with belt conveyor 308 movement is encountered to turn and is re-packed 116 micro-turns, the signal that trigger sensor 113 sends, and belt conveyor 308 quits work and declines, and transverse feed mechanism 6 drives two groups of pushers 8 to carry out transverse shifting and promotes plate.Pusher 8 immediately promotes the backer that numerical control bender is close to by plate.The elevating bracket 114 of longitudinal spacing mechanism 11 declines, and belt conveyor 6 rises, and servomotor 309 rotates and drives belt conveyor 308 simultaneously, and after just can making automatic bending, plate flows into lower one station.
As shown in figure 14, work top 316, it is made up of brush plate face 317 and brush plate face steelframe 318.Primary support plate weight.
The automatic bending special plane of a kind of elevator hall's door-plate based on streamline form of the present utility model, its plate work comprises the steps:
Step one, plate are from automatic punch machine out, the automatic bending special plane in the long limit of first is entered through streamline, belt conveyor 308 drives plate to vertically move, after encountering longitudinal spacing mechanism 11, belt conveyor 308 stops moving and declining, and the elevating bracket 114 of longitudinal spacing mechanism 11 declines, and two groups of feeding clip mechanisms, 9, two groups of pushers 8 and the plate of transverse feed mechanism 6 drive simultaneously carry out transverse shifting, push plate to numerical control bender, but do not shift the end onto.
Step 2, two groups of pushers 8 shift plate onto the end, be close to the backer of numerical control bender, numerical control bender patrix declines, carry out the first cutter bending, the follower of bending simultaneously 10 with the bending upset of plate, rise, when the first cutter bending is complete by upset, when patrix rises, bending follower 10 holds in the palm plate upset decline, and numerical control bender backer adjusts position, to meet the second cutter bending size.
Step 3, two groups of pushers 8 push plate to numerical control bender backer again, numerical control bender patrix declines, carry out the second cutter bending, the follower of bending simultaneously 10 with the bending upset of plate, rise by upset, when the second cutter bending is complete, when patrix rises, when bending follower 10 rolls back original position under holding in the palm plate upset, the cylinder 901 of two groups of feeding clip mechanisms 9 declines, drive briquetting 902 to be pressed on by plate on lower cushion block 903, by transverse feed mechanism 6 transverse shifting, plate is entrained back into original position.The cylinder 901 of two groups of feeding clip mechanisms 9 drives briquetting 902 to rise, and is unclamped by plate.
Step 4, belt conveyor 6 rise and servomotor 309 rotation drives belt conveyor 308 to drive plate to vertically move, and flow into the bending work station of lower one opposite side.

Claims (10)

1. the automatic bending system of elevator hall's door-plate based on streamline, comprise bender (1) and work transfer device, it is characterized in that: described work transfer device comprises the frame (2) being provided with bearing platform, described bearing platform is divided into input section (3), feeding section (4) and deferent segment (5) successively along work piece delivery direction; Described input section (3) and deferent segment (5) are equipped with for carrying and shifting the belt conveyor (308) of workpiece, described feeding section (4) comprising:
Traversing platform (7), is slidably fitted in frame, for drive workpiece near or away from bender (1);
Pusher (8), is arranged on traversing platform (7), for the workpiece be on traversing platform (7) is pushed into machining position;
Feeding clip mechanism (9), is fixed on traversing platform (7), makes workpiece follow traversing platform (7) depart from bender (1) for holding workpiece;
Bending follower (10), falls to traversing platform (7) for following the workpiece after helping bending.
2. the automatic bending system of elevator hall's door-plate based on streamline according to claim 1, it is characterized in that: described input section (3) and deferent segment (5) are equipped with crane (300), described belt conveyor (308) comprises feeding belt and outfeed belt, is arranged on respectively on corresponding crane (300).
3. the automatic bending system of elevator hall's door-plate based on streamline according to claim 2, it is characterized in that: described crane (300) comprises the conveyer belt frame for installing belt conveyor (308), and be arranged in frame (2) for driving two cylinders of conveyer belt frame; The two ends, bottom of described conveyer belt frame are hinged on the piston rod of a corresponding cylinder respectively.
4. the automatic bending system of elevator hall's door-plate based on streamline according to claim 1, is characterized in that: described bending follower (10) comprising: for helping the turnover panel (102) of workpiece; Be fixed on the guiding tooth bar (109) of turnover panel (102) bottom; Switching is gone up and the driven wheel (108) engaged with described tooth bar (109) in frame (1).
5. the automatic bending system of elevator hall's door-plate based on streamline according to claim 4, it is characterized in that: described turnover panel (102) bottom is fixed with the guide plate (103) of arc, described guiding tooth bar (109) is arranged on the side in guide plate (103) center of circle dorsad, is provided with gathering sill at guide plate (103) towards the side in the center of circle; In described frame switching have to coordinate with gathering sill in directive wheel (104).
6. the automatic bending system of elevator hall's door-plate based on streamline according to claim 5, it is characterized in that: the upper switching of described frame (2) has outer directive wheel (105), and the periphery of this outer directive wheel (105) is provided with the cannelure matched with the tooth bar that leads (109).
7. the automatic bending system of elevator hall's door-plate based on streamline according to claim 4, it is characterized in that: described bearing platform is provided with the opening corresponding with turnover panel (102) position, the edge of described turnover panel (102) is provided with the flexible closure cover hung down into opening.
8. the automatic bending system of elevator hall's door-plate based on streamline according to claim 1, is characterized in that: described deferent segment (5) is provided with:
Be arranged on the elevating bracket (114) in frame (2);
Be arranged on the sensor (113) on elevating bracket (114);
Be hinged on re-pack (116) for trigger sensor (113) on elevating bracket (114);
The back-moving spring that re-packs (115) being connected to elevating bracket (114) and re-packing between (116).
9. the automatic bending system of elevator hall's door-plate based on streamline according to claim 8, it is characterized in that: described frame (2) is fixed with fairlead (117), described elevating bracket (114) activity is located in fairlead (117).
10. the automatic bending system of elevator hall's door-plate based on streamline according to claim 9, is characterized in that: described fairlead (117) inner chamber and elevating bracket (114) have the on-circular cross-section cooperatively interacted.
CN201420784713.7U 2014-12-12 2014-12-12 A kind of automatic bending system of elevator hall's door-plate based on streamline Withdrawn - After Issue CN204365753U (en)

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Application Number Priority Date Filing Date Title
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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104550337A (en) * 2014-12-12 2015-04-29 杭州西奥电梯有限公司 Elevator hall door plate automatic bending system based on flow line
CN105107903A (en) * 2015-09-10 2015-12-02 曼斯顿电梯(浙江)有限公司 Elevator door seal head automatic flanging production line and production method thereof
CN108515307A (en) * 2018-05-29 2018-09-11 安徽艾普智能装备有限公司 A kind of metal plate automatic tipping arrangement
CN112872116A (en) * 2021-02-02 2021-06-01 佛山市亚洋机械设备有限公司 Supporting platform device of up-moving type five metals bender

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104550337A (en) * 2014-12-12 2015-04-29 杭州西奥电梯有限公司 Elevator hall door plate automatic bending system based on flow line
CN104550337B (en) * 2014-12-12 2016-10-05 杭州西奥电梯有限公司 An automatic bending system for elevator hall door panels based on assembly line
CN105107903A (en) * 2015-09-10 2015-12-02 曼斯顿电梯(浙江)有限公司 Elevator door seal head automatic flanging production line and production method thereof
CN108515307A (en) * 2018-05-29 2018-09-11 安徽艾普智能装备有限公司 A kind of metal plate automatic tipping arrangement
CN112872116A (en) * 2021-02-02 2021-06-01 佛山市亚洋机械设备有限公司 Supporting platform device of up-moving type five metals bender

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