CN204777531U - Link joint conveying mechanism - Google Patents
Link joint conveying mechanism Download PDFInfo
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- CN204777531U CN204777531U CN201520472444.5U CN201520472444U CN204777531U CN 204777531 U CN204777531 U CN 204777531U CN 201520472444 U CN201520472444 U CN 201520472444U CN 204777531 U CN204777531 U CN 204777531U
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Abstract
The utility model discloses a link joint conveying mechanism, include: at least, two conveying unit have been set gradually along same direction of delivery in the frame, every conveying unit is all including carrying the link joint and being used for the drive to carry link joint pivoted link joint drive arrangement, transport link joint in every conveying unit is all including first link joint and the second link joint carried forward, all leave first installation clearance between the first link joint that two head and the tail are adjacent in per two conveying unit that head and the tail are adjacent, all leave second installation clearance between two second link joints that head and the tail are adjacent in per two conveying unit that head and the tail are adjacent, first installation clearance and the mutual setting of staggering of second installation clearance homogeneous phase between per two conveying unit that head and the tail are adjacent, all be provided with the cab apron in every first installation clearance and every second installation clearance, the utility model has the advantages that: the phenomenon that can effectively avoid the container to be detained on crossing the cab apron takes place, improves the transport efficiency of container greatly.
Description
Technical field
The utility model relates to the chain board conveying mechanism in filling production lines.
Background technology
Traditional chain board conveying mechanism comprises: frame, frame is at least disposed with two supply units along same throughput direction, each supply unit includes transporting chain plate and the carrier bar actuating device for driving transporting chain plate to rotate, all assemblage gap is left between two supply units that head and the tail are adjacent, rebound is provided with in described assemblage gap, described rebound is installed in frame, and the setting height(from bottom) of rebound guarantees that container can be transported on the transporting chain plate of previous supply unit from the transporting chain plate of a rear supply unit.During work, container is constantly fed forward by the transporting chain plate of each supply unit, wherein the transporting chain plate of a rear supply unit constantly by container transport on rebound, container on rebound enters on the transporting chain plate of previous supply unit by rebound under the promotion of the container of rear transporting chain plate conveying, so constantly repeats the transportation work that can complete container.
There is following defect in above-mentioned chain board conveying mechanism: one, rebound does not have transmitting power, and when container is by rebound, rebound easily causes vessel residence to the friction drag that container produces, and causes container transport not smooth, thus cause transport efficiency low; Two, each produce terminate after, all can hold up vessel on the rebound being arranged in the supply unit of chain board conveying mechanism foremost, the container of delay needs artificial treatment.
Utility model content
The utility model needs the problem solved: provide a kind of and can not produce vessel residence, chain board conveying mechanism that transport efficiency is high on rebound.
For solving the problem, the technical solution adopted in the utility model is: chain board conveying mechanism, comprise: frame, frame is at least disposed with two supply units along same throughput direction, each supply unit includes transporting chain plate and the carrier bar actuating device for driving transporting chain plate to rotate, transporting chain plate in each supply unit includes the first carrier bar and the second carrier bar that are fed forward, the first carrier bar in each supply unit and the second carrier bar are drawn close and arranged in parallel mutually, the first assemblage gap is all left between the first carrier bar that two head and the tail in the supply unit that every two head and the tail are adjacent are adjacent, the second assemblage gap is all left between the second carrier bar that two head and the tail in the supply unit that every two head and the tail are adjacent are adjacent, the first assemblage gap between the supply unit that every two head and the tail are adjacent and the second assemblage gap stagger mutually and arrange, rebound is provided with in each first assemblage gap and each second assemblage gap, described rebound is all fixedly mounted in frame, the setting height(from bottom) of every block rebound all guarantees that container can be transported on the transporting chain plate of previous supply unit from the transporting chain plate of a rear supply unit.
Further, aforesaid chain board conveying mechanism, wherein, the structure of the carrier bar actuating device of each supply unit comprises: the first driving wheel and the first follower that are separately positioned on the first carrier bar head and the tail two ends, the first described driving wheel is fixedly mounted in the first imput shaft, the first described imput shaft freely-movable bearing in frame and by frame motor drive, the first described follower is sleeved on the first driven axle, first driven axle is arranged in frame, and the first follower and the first driven axle can independently rotate separately, be arranged on the second driving wheel and second follower at the second carrier bar head and the tail two ends respectively, the second described driving wheel is fixedly mounted in the second imput shaft, the second described imput shaft freely-movable bearing is in frame, the second described follower is sleeved on the second driven axle, second driven axle is fixedly mounted in frame, be positioned in second imput shaft of the same side and the first imput shaft and be installed with drive sprocket and driven sprocket respectively, described drive sprocket and driven sprocket are provided with chain, under the driving of reducing motor, the first imput shaft passes through drive sprocket, chain and driven sprocket drive the second imput shaft to rotate, thus synchronous the first carrier bar and the second carrier bar of driving is respectively on the first driving wheel and the first follower, and second driving wheel and the second follower rotate.
Further, aforesaid chain board conveying mechanism, wherein, in the supply unit that every two head and the tail are adjacent, the second imput shaft in a rear supply unit and the first driven axle in previous supply unit are same axis.
Further, aforesaid chain board conveying mechanism, wherein, described motor is reducing motor.
The utility model has the advantages that: because the transporting chain plate in each supply unit includes the first carrier bar and the second carrier bar, the setting and the first assemblage gap between the first carrier bar in the supply unit that every two head and the tail are adjacent and the second assemblage gap between the second carrier bar stagger mutually, therefore container from rebound through out-of-date, the bottom half of container is rebound, second half is the first carrier bar or the second carrier bar, in whole course of conveying, there is transmitting power the bottom of container all the time, this just can effectively be avoided the phenomenon of vessel residence on rebound to occur, greatly improve the patency of container transport, thus greatly improve the transport efficiency of container.
Accompanying drawing explanation
Fig. 1 is the structural representation of chain board conveying mechanism described in the utility model.
Fig. 2 is the mounting structure schematic diagram of rebound in Fig. 1.
Detailed description of the invention
Below in conjunction with accompanying drawing and preferred embodiment, the utility model is described in further detail.
As Fig. 1, shown in Fig. 2, chain board conveying mechanism, comprise: frame 1, frame 1 is at least disposed with two supply units along same throughput direction, the quantity of supply unit specifically can be determined according to the length of fed distance, each supply unit includes transporting chain plate and the carrier bar actuating device for driving transporting chain plate to rotate, in the present embodiment, transporting chain plate in each supply unit includes the first carrier bar 2 and the second carrier bar 3 be fed forward, the first carrier bar 2 in each supply unit and the second carrier bar 3 are drawn close and arranged in parallel mutually, the first assemblage gap 4 is all left between the first carrier bar 2 that two head and the tail in the supply unit that every two head and the tail are adjacent are adjacent, the second assemblage gap 5 is all left between the second carrier bar 3 that two head and the tail in the supply unit that every two head and the tail are adjacent are adjacent, the first assemblage gap 4 between the supply unit that every two head and the tail are adjacent and the second assemblage gap 5 stagger mutually and arrange, the distance that first assemblage gap 4 and the second assemblage gap 5 stagger mutually is the base diameter being transferred container.Rebound 6 is provided with respectively in each first assemblage gap 4 and each second assemblage gap 5, described rebound 6 is all fixedly mounted in frame 1, and the setting height(from bottom) of every block rebound 6 all guarantees that container 7 can be delivered to smoothly on the transporting chain plate of previous supply unit from the transporting chain plate of a rear supply unit.In the present embodiment, the structure of the carrier bar actuating device of each supply unit comprises: the first driving wheel 21 and the first follower 22 being separately positioned on the first carrier bar 2 head and the tail two ends, the first described driving wheel 21 is fixedly mounted in the first imput shaft 8, the first described imput shaft 8 freely-movable bearing is in frame 1 and driven by the reducing motor 9 in frame 1, the first described follower 22 is sleeved on the first driven axle 10, the first described driven axle 10 is arranged in frame 1, and the first follower 22 and the first driven axle 10 can independently rotate separately, be arranged on second driving wheel 31 and second follower 32 at the second carrier bar 3 head and the tail two ends respectively, the second described driving wheel 31 is fixedly mounted in the second imput shaft 11, the second described imput shaft 11 freely-movable bearing is in frame 1, the second described driven axle 15 is fixedly mounted in frame 1, be positioned in first imput shaft 8 of the same side and the second imput shaft 11 and be installed with drive sprocket 12 and driven sprocket 13 respectively, drive sprocket 12 and driven sprocket 13 are provided with chain 14, under the driving of reducing motor 9, the first imput shaft 8 is by drive sprocket 12, driven sprocket 13 chains 14 drive the second imput shaft 11 synchronous axial system, thus drive the first carrier bar 2 and the second carrier bar 3 synchronous axial system on the first driving wheel 21 and the first follower 22 and on the second driving wheel 31 and the second follower 32 respectively, in the present embodiment, in the supply unit that every two head and the tail are adjacent, the second imput shaft in a rear supply unit and the first driven axle in previous supply unit are same axis, and the advantage done like this is: designs simplification, install and safeguard all more convenient, also reducing productive costs.
Because the transporting chain plate in each supply unit includes the first carrier bar 2 and the second carrier bar 3, the setting and the first assemblage gap 4 between the first carrier bar 2 in the supply unit that every two head and the tail are adjacent and the second assemblage gap 5 between the second carrier bar 2 stagger mutually, therefore when container 7 from rebound 6 through out-of-date, can ensure that the bottom half of container 7 is rebounds 6, second half is the first carrier bar 2 or the second carrier bar 3, like this in whole course of conveying, there is transmitting power the bottom of container 7 all the time, the phenomenon just effectively avoiding container 7 to be trapped on rebound 6 occurs, substantially increase the patency that container 7 is carried, thus substantially increase the transport efficiency of container.
Claims (3)
1. chain board conveying mechanism, comprise: frame, frame is at least disposed with two supply units along same throughput direction, each supply unit includes transporting chain plate and the carrier bar actuating device for driving transporting chain plate to rotate, it is characterized in that: the transporting chain plate in each supply unit includes the first carrier bar and the second carrier bar that are fed forward, the first carrier bar in each supply unit and the second carrier bar are drawn close and arranged in parallel mutually, the first assemblage gap is all left between the first carrier bar that two head and the tail in the supply unit that every two head and the tail are adjacent are adjacent, the second assemblage gap is all left between the second carrier bar that two head and the tail in the supply unit that every two head and the tail are adjacent are adjacent, the first assemblage gap between the supply unit that every two head and the tail are adjacent and the second assemblage gap stagger mutually and arrange, rebound is provided with in each first assemblage gap and each second assemblage gap, described rebound is all fixedly mounted in frame, the setting height(from bottom) of every block rebound all guarantees that container can be transported on the transporting chain plate of previous supply unit from the transporting chain plate of a rear supply unit.
2. chain board conveying mechanism according to claim 1, it is characterized in that: the structure of the carrier bar actuating device of each supply unit comprises: the first driving wheel and the first follower that are separately positioned on the first carrier bar head and the tail two ends, the first described driving wheel is fixedly mounted in the first imput shaft, the first described imput shaft freely-movable bearing in frame and by frame motor drive, the first described follower is sleeved on the first driven axle, first driven axle is arranged in frame, and the first follower and the first driven axle can independently rotate separately, be arranged on the second driving wheel and second follower at the second carrier bar head and the tail two ends respectively, the second described driving wheel is fixedly mounted in the second imput shaft, the second described imput shaft freely-movable bearing is in frame, the second described follower is sleeved on the second driven axle, second driven axle is fixedly mounted in frame, be positioned in second imput shaft of the same side and the first imput shaft and be installed with drive sprocket and driven sprocket respectively, described drive sprocket and driven sprocket are provided with chain, under the driving of reducing motor, the first imput shaft passes through drive sprocket, chain and driven sprocket drive the second imput shaft synchronous axial system, thus synchronous the first carrier bar and the second carrier bar of driving is respectively on the first driving wheel and the first follower, and second driving wheel and the second follower rotate.
3. chain board conveying mechanism according to claim 2, is characterized in that: in the supply unit that every two head and the tail are adjacent, and the second imput shaft in a rear supply unit and the first driven axle in previous supply unit are same axis.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520472444.5U CN204777531U (en) | 2015-06-30 | 2015-06-30 | Link joint conveying mechanism |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520472444.5U CN204777531U (en) | 2015-06-30 | 2015-06-30 | Link joint conveying mechanism |
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CN204777531U true CN204777531U (en) | 2015-11-18 |
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CN201520472444.5U Active CN204777531U (en) | 2015-06-30 | 2015-06-30 | Link joint conveying mechanism |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109502301A (en) * | 2018-12-12 | 2019-03-22 | 长沙长泰智能装备有限公司 | It is segmented chain mat machine |
CN109835675A (en) * | 2017-11-24 | 2019-06-04 | 江苏中天华宇智能科技有限公司 | The conveying device of fiber reel |
-
2015
- 2015-06-30 CN CN201520472444.5U patent/CN204777531U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109835675A (en) * | 2017-11-24 | 2019-06-04 | 江苏中天华宇智能科技有限公司 | The conveying device of fiber reel |
CN109502301A (en) * | 2018-12-12 | 2019-03-22 | 长沙长泰智能装备有限公司 | It is segmented chain mat machine |
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