CN208790624U - A kind of rotating module in high speed shunting machine - Google Patents
A kind of rotating module in high speed shunting machine Download PDFInfo
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- CN208790624U CN208790624U CN201821095718.3U CN201821095718U CN208790624U CN 208790624 U CN208790624 U CN 208790624U CN 201821095718 U CN201821095718 U CN 201821095718U CN 208790624 U CN208790624 U CN 208790624U
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- transmission shaft
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- flange
- driving shaft
- high speed
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Abstract
The utility model discloses the rotating modules in a kind of high speed shunting machine, it can be applied to storage, logistics delivery industry, bigger occasion is required in particular for conveying and sorting amount, the utility model includes the first synchronous pulley, driving shaft, mounting flange, first bearing mechanism, rotation flange, second bearing mechanism, mounting plate, bevel gear mechanism/strong magnet-wheel mechanism, the first transmission shaft, the second synchronous pulley, the first synchronous belt, second driving shaft, idler wheel mechanism, oscillating bearing, pivot link and connecting column.The utility model is by using the multiple transmission mechanisms of bevel gear, realize the rolling of idler wheel mechanism, solve the problems, such as high speed, smooth transport, and pass through pivot link, oscillating bearing and rotation flange, realize the steering of the utility model, it is not easy the phenomenon that stacked goods, card goods occur, realizes the purpose for reducing labor intensity and promoting goods sorting efficiency.
Description
Technical field
The utility model relates to a kind of high speeds to shunt machine, and the rotating module in especially a kind of high speed shunting machine, this is practical
It is novel to can be applied to storage, logistics delivery industry, bigger occasion is required in particular for conveying and sorting amount.
Background technique
The fast development of Internet of Things has driven the development of electric business and delivery industry, in the branching process of cargo, with goods
The growth of object amount, artificial labor intensity is increasing, and human cost is higher and higher;At present round belt form current divider turn to and
Delivery method, which is be easy to cause, there is the phenomenon that stacked goods, card goods, and manual operation is relatively more when car loading is big;For
This, invents the rotating module in a kind of high speed shunting machine, can effectively reduce the labor intensity of worker, promote the shunting of cargo
Efficiency.
Utility model content
The purpose of this utility model is to provide the rotating module in a kind of high speed shunting machine, realize that reduction hand labor is strong
Degree and the purpose for promoting goods sorting efficiency.
The utility model is realized in this way:
A kind of rotating module in high speed shunting machine, including the first synchronous pulley, driving shaft, mounting flange, first bearing
Mechanism, rotation flange, second bearing mechanism, mounting plate, bevel gear mechanism/strong magnet-wheel mechanism, the first transmission shaft, the second synchronous belt
Wheel, the first synchronous belt, second driving shaft, idler wheel mechanism, oscillating bearing, pivot link and connecting column, wherein the rotation method
It is blue, mounting flange is coaxially connected from top to bottom, lower end and the workbench of the mounting flange are fixed, the driving shaft on to
Under sequentially pass through rotation flange and mounting flange, and by second bearing mechanism and rotation flanged joint, pass through first bearing machine
Structure is connect with mounting flange;First synchronous pulley be socketed in the lower end of driving shaft and with driving shaft synchronous rotary;Described turn
Upward, mounting plate is connect the disk of dynamic flange with the disk of rotation flange, and first transmission shaft, second driving shaft are transversely mounted
On a mounting board, by bevel gear mechanism/strong magnet-wheel mechanism connection between first transmission shaft and driving shaft, described second is passed
Pass through the second synchronous pulley and the first synchronous band connection, the second driving shaft and idler wheel mechanism between moving axis and the first transmission shaft
Connection;The connecting column is located on rotation flange, and the pivot link is connect by oscillating bearing with connecting column;
When work, the first power source by the first synchronous pulley drive spindle rotation, driving shaft by bevel gear mechanism/
Strong magnet-wheel mechanism drives the rotation of the first transmission shaft, and the first transmission shaft drives second to pass by the second synchronous pulley and the first synchronous belt
Moving axis rotation, second driving shaft drive idler wheel mechanism to roll, and the idler wheel mechanism is used for logistics transportation;When needing to turn to, second
Power source drives oscillating bearing movement, driving 0-55 ° of flange left and right turn of rotation by pivot link.
Strong magnet-wheel is a kind of non-basic magnetic drives wheel, and using magnetic principles as transmission, contactless transmission can be solved
Even if certainly there is abnormalities load, the problem of damaging will not be caused, non-basic magnetic drives wheel does not have wear problem, substantially
Service free maintenance, it is simply transmission optimal selection of new generation that Machine Design, which also adds,.It should be noted that as referred to herein
The connection of strong magnet-wheel mechanism and other components, includes contactless magnetic connection mode, and not there was only Mechanical Contact
Connection type.
By adopting the above technical scheme, the rotary motion of driving shaft vertical direction is converted to the first transmission shaft by the utility model
The rotary motion of horizontal direction, the first transmission shaft pass through the first synchronous belt again, and the second synchronous pulley drives idler wheel mechanism rotation fortune
It is dynamic, idler wheel mechanism conveying articles by way of friction-driven;Bevel gear mechanism driving capability is strong, and strong magnet-wheel mechanism is contactless
Formula movement, low noise.Pivot link passes through oscillating bearing again and drives entire rotating module left-right rotation, to realize to cargo
It shunts or sorts;It shunts or sorting angle is any angle in 0 ° to 55 °, labor intensity can be effectively reduced, and
Promote goods sorting efficiency.
The first bearing mechanism includes 2 first bearings and the first spacer as a further improvement of the utility model,
First spacer is tightly attached to the periphery of driving shaft, and is connected by the flange hole hole wall of 2 first bearings and mounting flange, and described the
Two Bearning mechanisms include 2 second bearings and the second spacer, and the second spacer is tightly attached to the periphery of driving shaft, and passes through 2 second
Bearing is connect with the flange hole hole wall of rotation flange.It adopts this technical solution, by bearing and spacer, reduces driving shaft and fixation
Wear phenomenon between flange, rotation flange.
As a further improvement of the utility model, the bevel gear mechanism include intermeshing driving bevel gear and from
Dynamic bevel gear, the driving bevel gear are socketed on driving shaft, and the driven bevel pinion is socketed on the first transmission shaft;It is described strong
Magnet-wheel mechanism is socketed on driving shaft, and is in the underface of the first transmission shaft.It is carried out using bevel gear mechanism/strong magnet-wheel mechanism
Transmission, the kind of drive are reliable, steady.
It as a further improvement of the utility model, further include connecting flange, the lower end of the mounting plate passes through connection method
The blue disk with rotation flange is connect.
Second synchronous pulley is 2 and is socketed in the first transmission respectively as a further improvement of the utility model,
On axis and second driving shaft, first synchronous 2 the second synchronous pulleys of band connection.
The idler wheel mechanism includes 4 encapsulated idler wheels, third transmission shaft, the as a further improvement of the utility model,
Four transmission shafts, third synchronous pulley, the 4th synchronous pulley, the second synchronous belt, third synchronous belt, wherein third transmission shaft, the 4th
Transmission shaft is transversely mounted on a mounting board respectively, and the first transmission shaft, second driving shaft, third transmission shaft, the 4th transmission shaft
It is spatially parallel to each other, 1 encapsulated idler wheel is socketed on second driving shaft, and 2 encapsulated idler wheels are socketed in third transmission respectively
The both ends of axis, 1 encapsulated idler wheel are socketed on the 4th transmission shaft, synchronous by third between second driving shaft and third transmission shaft
Belt wheel and the second synchronous band connection, are connected between third transmission shaft and the 4th transmission shaft by the 4th synchronous pulley and third synchronous belt
It connects.
The third synchronous pulley is 2 and is socketed in the second transmission respectively as a further improvement of the utility model,
On axis and third transmission shaft, second synchronous 2 third synchronous pulleys of band connection, the 4th synchronous pulley is 2 and covers respectively
It connects on third transmission shaft and the 4th transmission shaft, synchronous 2 the 4th synchronous pulleys of band connection of third.
By adopting the above technical scheme, it by synchronous pulley and synchronous belt, completes from the first transmission shaft to the 4th transmission shaft
Transmission process, and four transmission shafts being parallel to each other are combined, it realizes high speed, smoothly shunt purpose.
First transmission shaft, second driving shaft, third transmission shaft, the 4th as a further improvement of the utility model,
Transmission shaft is connected each by 2 3rd bearings with mounting plate.It adopts this technical solution, reduces between each transmission shaft and mounting plate
Wear phenomenon.
It as a further improvement of the utility model, further include the cover board being mounted on above idler wheel mechanism, the cover board is engraved
Sky exposes so as to 4 encapsulated idler wheels from hollow part.
Preferably, mounting plate described in the utility model is designed as cylinder moulding, facilitates internal driving shaft and umbrella tooth turbine
The installation of structure/strong magnet-wheel mechanism.
First power source described in the utility model, the second power source can be electric or pneumatic mode.
Compared with prior art, the utility model has the beneficial effects that the utility model is by using bevel gear or by force
Magnet-wheel cooperates multiple transmission mechanisms, realizes the rolling of idler wheel mechanism, solves the problems, such as high speed, smooth transport, and by turning
Dynamic connecting rod, oscillating bearing and rotation flange, realize the steering of the utility model, shunt or sorting angle is in 0 ° to 55 °
Labor intensity can be effectively reduced in any angle, and promotes goods sorting efficiency.
Detailed description of the invention
Fig. 1 is the exploded view of the rotating module in the first high speed shunting machine provided by the utility model (using bevel gear
Mechanism driving).
Fig. 2 is the cross-sectional view of the rotating module in a kind of high speed shunting machine provided by the utility model (using umbrella tooth turbine
Structure transmission).
Fig. 3 is that the cross-sectional view of the rotating module in a kind of high speed shunting machine provided by the utility model (uses strong magnetic-wheel machine
Structure transmission).
Fig. 4 is the use schematic diagram of the rotating module in a kind of high speed shunting machine provided by the utility model (with bevel gear
For mechanism driving).
Fig. 5 is the top view of Fig. 4.
Detailed description of the invention: the first synchronous pulley of 1-, 2- driving shaft, 3- mounting flange, 4- rotate flange, 5- mounting plate, 6- umbrella
Gear mechanism/strong magnet-wheel mechanism, the first transmission shaft of 7-, the second synchronous pulley of 8-, the first synchronous belt of 9-, 10- second driving shaft,
11- oscillating bearing, 12- pivot link, 13- connecting column, 14- workbench, 15- first bearing, the first spacer of 16-, 17-
Two bearings, 18- connecting flange, the encapsulated idler wheel of 19-, 20- third transmission shaft, the 4th transmission shaft of 21-, 22- third synchronous pulley,
The 4th synchronous pulley of 23-, the second synchronous belt of 24-, 25- third synchronous belt, 26- 3rd bearing, 27- cover board.
Specific embodiment
In order to illustrate the technical solutions in the embodiments of the present application or in the prior art more clearly, with reference to the accompanying drawing and specifically
The present invention will be further described for embodiment.
Embodiment 1
Rotating module in a kind of high speed shunting machine as shown in Figs 1-4, including it is the first synchronous pulley 1, driving shaft 2, solid
Determine flange 3, first bearing mechanism, rotation flange 4, second bearing mechanism, mounting plate 5, bevel gear mechanism/strong magnet-wheel mechanism 6, the
One transmission shaft 7, the second synchronous pulley 8, the first synchronous belt 9, second driving shaft 10, idler wheel mechanism, oscillating bearing 11, pivot link
12 and connecting column 13.
Wherein, as shown in Figure 1, 2, the rotation flange 4, mounting flange 3 are coaxially connected from top to bottom, the mounting flange
3 lower end and workbench 14 are fixed, and the driving shaft 2 sequentially passes through rotation flange 4 and mounting flange 3 from top to bottom, and leads to
It crosses second bearing mechanism to connect with rotation flange 4, be connect by first bearing mechanism with mounting flange 3.
First synchronous pulley 1 be socketed in the lower end of driving shaft 2 and with 2 synchronous rotary of driving shaft.Herein, first is same
The effect of step belt wheel is: connecting with the first power source, drives the rotation of driving shaft;Or the power of driving shaft is passed
(in the case where the first synchronous pulley is connect with other rotating modules).
Upward, mounting plate 5 is connect the disk of the rotation flange 4 with the disk of rotation flange 4, first transmission shaft 7,
Second driving shaft 10 is transversely mounted on mounting plate 5, by bevel gear mechanism/strong between first transmission shaft 7 and driving shaft 2
Magnet-wheel mechanism 6 connects, and passes through the second synchronous pulley 8 and the first synchronous belt 9 between the second driving shaft 10 and the first transmission shaft 7
Connection, the second driving shaft 10 are connect with idler wheel mechanism.Adopt this technical solution, by bevel gear mechanism/strong magnet-wheel mechanism,
Multiple transmission shafts, synchronous pulley and synchronous belt are realized the high speed of the utility model, are steadily shunted.
As shown in Figure 3,4, the connecting column 13 is located on rotation flange 4, and the pivot link 12 passes through oscillating bearing 11
It is connect with connecting column 13.
When the utility model at work, the first power source drives driving shaft 2 to rotate by the first synchronous pulley 1, driving shaft 2
The rotation of the first transmission shaft 7 is driven by bevel gear mechanism/strong magnet-wheel mechanism 6, the first transmission shaft 7 passes through 8 He of the second synchronous pulley
First synchronous belt 9 drives second driving shaft 10 to rotate, and second driving shaft 10 drives idler wheel mechanism to roll, and the idler wheel mechanism is used for
Logistics transportation;When needing to turn to, the second power source drives oscillating bearing 11 to move by pivot link 12, and oscillating bearing 11 occurs
It turns to, by connecting column 13, finally driving rotates 4 left and right turn of flange.
Further, the second power source drive rotation flange 4 turns to 0-55 °.
Using the technical solution of the present embodiment, the rotary motion of driving shaft vertical direction is converted to first by the utility model
The rotary motion of transmission shaft horizontal direction, the first transmission shaft pass through the first synchronous belt again, and the second synchronous pulley drives idler wheel mechanism
Rotary motion, idler wheel mechanism conveying articles by way of friction-driven;Bevel gear mechanism driving capability is strong, and strong magnet-wheel mechanism is
Non-contact type movement, low noise.Pivot link passes through oscillating bearing again and drives entire rotating module left-right rotation, to realize
Shunting or sorting to cargo;It shunts or sorting angle is any angle in 0 ° to 55 °, it is strong hand labor to be effectively reduced
Degree, and promote goods sorting efficiency.
Embodiment 2
On the basis of embodiment 1, following design is carried out to first bearing mechanism and second bearing mechanism.
The first bearing mechanism includes 2 first bearings 15 and the first spacer 16, and the first spacer 16 is tightly attached to driving shaft 2
Periphery, and connect with the flange hole hole wall of mounting flange 3 by 2 first bearings 15.
The second bearing mechanism includes 2 second bearings 17 and the second spacer, and the second spacer is tightly attached to the outer of driving shaft 2
Week, and connect by 2 second bearings 17 with the flange hole hole wall of rotation flange 4.
Further, the first spacer 16 and the second spacer are same spacer.
It adopts this technical solution, by 2 first bearings, 2 second bearings and 1 spacer, advantageously reduces driving shaft
Wear phenomenon between mounting flange, rotation flange.
Embodiment 3
On the basis of embodiment 1, following design is carried out to bevel gear mechanism/strong magnet-wheel mechanism, mounting plate.
The bevel gear mechanism 6 includes intermeshing driving bevel gear and driven bevel pinion, the driving bevel gear set
It connects on driving shaft 2, the driven bevel pinion is socketed on the first transmission shaft 7;The strong magnet-wheel mechanism is socketed in driving shaft
On, and adopted this technical solution immediately below the first transmission shaft, bevel gear mechanism driving capability is strong, and strong magnet-wheel mechanism is nothing
Contact movement, low noise.
The utility model further includes connecting flange 18, and the lower end of the mounting plate 5 passes through connecting flange 18 and rotation flange 4
Disk connection.
Preferably, mounting plate 5 described in the utility model is designed as cylinder moulding, facilitates internal driving shaft 2 and bevel gear
The installation of mechanism/strong magnet-wheel mechanism 6.
Embodiment 4
On the basis of embodiment 1, following design is carried out to the second synchronous pulley, idler wheel mechanism.
Preferably, second synchronous pulley 8 is 2 and is socketed in the first transmission shaft 7 and second driving shaft 10 respectively
On, the first synchronous belt 9 connects 2 the second synchronous pulleys 7.
The idler wheel mechanism includes 4 encapsulated idler wheels 19, third transmission shaft 20, the 4th transmission shafts 21, third synchronous pulley
22, the 4th synchronous pulley 23, the second synchronous belt 24, third synchronous belt 25, wherein third transmission shaft 20, the 4th transmission shaft 21 divide
It is not transversely mounted on mounting plate 5, and the first transmission shaft 7, second driving shaft 10, third transmission shaft 20, the 4th transmission shaft 21
Spatially it is parallel to each other.1 encapsulated idler wheel 19 is socketed on second driving shaft 10, and 2 encapsulated idler wheels 19 are socketed in respectively
The both ends of three transmission shafts 20,1 encapsulated idler wheel 19 are socketed on the 4th transmission shaft 21, second driving shaft 10 and third transmission shaft 20
Between connected by third synchronous pulley 22 and the second synchronous belt 24, by the between third transmission shaft 20 and the 4th transmission shaft 21
Four synchronous pulleys 23 and third synchronous belt 25 connect.
Preferably, the third synchronous pulley 22 is 2 and is socketed in second driving shaft 10 and third transmission shaft 20 respectively
On, the second synchronous belt 24 connects 2 third synchronous pulleys 22, and the 4th synchronous pulley 23 is 2 and is socketed in third respectively
On transmission shaft 20 and the 4th transmission shaft 21, third synchronous belt 25 connects 2 the 4th synchronous pulleys 23.
By adopting the above technical scheme, it by synchronous pulley and synchronous belt, completes from the first transmission shaft to the 4th transmission shaft
Transmission process, and four transmission shafts being parallel to each other are combined, it realizes high speed, smoothly shunt purpose.
In addition, first transmission shaft 7, second driving shaft 10, third transmission shaft 20, the 4th transmission shaft 21 are each by 2
A 3rd bearing 26 and mounting plate 4 connect.It adopts this technical solution, reduces the wear phenomenon between each transmission shaft and mounting plate.
Embodiment 5
It further, further include the cover board 27 being mounted on above idler wheel mechanism, 27 hollow out of cover board is encapsulated so as to 4
Idler wheel 19 exposes from hollow part.
First power source described in the utility model, the second power source can be electric or pneumatic mode.
Embodiment 6
On the basis of embodiment 1-5, by the way that multiple rotating modules of the utility model are mounted on same workbench
On, and uniformly driven by the first power source and the second power source, wherein first between different steering modules is synchronous
Belt wheel is attached by synchronous belt, then operation while multiple rotating modules may be implemented;Connect between different rotating modules
It connects column to be attached by pivot link, then the unified course changing control of multiple rotating modules may be implemented, finally obtain a kind of turn
To high speed shunting machine that is flexible, and running smoothly.
The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this
Made any modifications, equivalent replacements, and improvements etc., should be included in the utility model within the spirit and principle of utility model
Protection scope within.
Claims (9)
1. the rotating module in a kind of high speed shunting machine, which is characterized in that including the first synchronous pulley, driving shaft, mounting flange,
First bearing mechanism, rotation flange, second bearing mechanism, mounting plate, bevel gear mechanism/strong magnet-wheel mechanism, the first transmission shaft, the
Two synchronous pulleys, the first synchronous belt, second driving shaft, idler wheel mechanism, oscillating bearing, pivot link and connecting column, wherein described
Rotation flange, mounting flange are coaxially connected from top to bottom, and lower end and the workbench of the mounting flange are fixed, the driving shaft
Rotation flange and mounting flange are sequentially passed through from top to bottom, and by second bearing mechanism and rotation flanged joint, pass through first
Bearning mechanism is connect with mounting flange;First synchronous pulley be socketed in the lower end of driving shaft and with driving shaft synchronous rotary;
Upward, mounting plate is connect the disk of the rotation flange with the disk of rotation flange, and first transmission shaft, second driving shaft are horizontal
On a mounting board to installation, described by bevel gear mechanism/strong magnet-wheel mechanism connection between first transmission shaft and driving shaft
Pass through the second synchronous pulley and the first synchronous band connection, the second driving shaft and rolling between second driving shaft and the first transmission shaft
Take turns mechanism connection;The connecting column is located on rotation flange, and the pivot link is connect by oscillating bearing with connecting column;
When work, the first power source drives spindle rotation by the first synchronous pulley, and driving shaft passes through bevel gear mechanism/strong magnetic
It takes turns mechanism and drives the rotation of the first transmission shaft, the first transmission shaft drives second driving shaft by the second synchronous pulley and the first synchronous belt
Rotation, second driving shaft drive idler wheel mechanism to roll, and the idler wheel mechanism is used for logistics transportation;When needing to turn to, the second power
Source drives oscillating bearing movement, driving 0-55 ° of flange left and right turn of rotation by pivot link.
2. the rotating module in high speed shunting machine according to claim 1, which is characterized in that first bearing mechanism packet
2 first bearings and the first spacer are included, the first spacer is tightly attached to the periphery of driving shaft, and passes through 2 first bearings and fixation
Blue flange hole hole wall connection, the second bearing mechanism includes 2 second bearings and the second spacer, and the second spacer is tightly attached to master
The periphery of moving axis, and connect by 2 second bearings with the flange hole hole wall of rotation flange.
3. the rotating module in high speed shunting machine according to claim 1, which is characterized in that the bevel gear mechanism includes
Intermeshing driving bevel gear and driven bevel pinion, the driving bevel gear are socketed on driving shaft, the driven bevel pinion
It is socketed on the first transmission shaft.
4. the rotating module in high speed shunting machine according to claim 1, which is characterized in that it further include connecting flange, institute
The lower end for stating mounting plate is connect by connecting flange with the disk for rotating flange.
5. the rotating module in high speed shunting machine according to claim 1, which is characterized in that second synchronous pulley is
It 2 and is socketed on the first transmission shaft and second driving shaft respectively, first synchronous 2 the second synchronous pulleys of band connection.
6. the rotating module in high speed shunting machine according to claim 1, which is characterized in that the idler wheel mechanism includes 4
A encapsulated idler wheel, third transmission shaft, the 4th transmission shaft, third synchronous pulley, the 4th synchronous pulley, the second synchronous belt, third are same
Walk band, wherein third transmission shaft, the 4th transmission shaft are transversely mounted on a mounting board respectively, and the first transmission shaft, the second transmission
Axis, third transmission shaft, the 4th transmission shaft are spatially parallel to each other, and 1 encapsulated idler wheel is socketed on second driving shaft, 2 packets
Rubber-surfaced roll wheel is socketed in the both ends of third transmission shaft respectively, and 1 encapsulated idler wheel is socketed on the 4th transmission shaft, second driving shaft and
By third synchronous pulley and the second synchronous band connection between three transmission shafts, by the between third transmission shaft and the 4th transmission shaft
Four synchronous pulleys band connection synchronous with third.
7. the rotating module in high speed shunting machine according to claim 6, which is characterized in that the third synchronous pulley is
It 2 and is socketed on second driving shaft and third transmission shaft respectively, second synchronous 2 third synchronous pulleys of band connection, described the
Four synchronous pulleys are 2 and are socketed on third transmission shaft and the 4th transmission shaft respectively that third synchronizes 2 the 4th synchronizations of band connection
Belt wheel.
8. the rotating module in high speed shunting machine according to claim 6, which is characterized in that first transmission shaft,
Two transmission shafts, third transmission shaft, the 4th transmission shaft are connected each by 2 3rd bearings with mounting plate.
9. the rotating module in high speed shunting machine according to claim 6, which is characterized in that further include being mounted on roller machine
Cover board above structure, the cover board hollow out are exposed so as to 4 encapsulated idler wheels from hollow part.
Priority Applications (1)
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CN201821095718.3U CN208790624U (en) | 2018-07-11 | 2018-07-11 | A kind of rotating module in high speed shunting machine |
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Application Number | Priority Date | Filing Date | Title |
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CN201821095718.3U CN208790624U (en) | 2018-07-11 | 2018-07-11 | A kind of rotating module in high speed shunting machine |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110342182A (en) * | 2019-06-25 | 2019-10-18 | 深圳市华南新海传动机械有限公司 | The driving device of sorter |
CN110451235A (en) * | 2019-06-25 | 2019-11-15 | 深圳市华南新海传动机械有限公司 | Idler wheel transmission module and roller transmissioning device |
-
2018
- 2018-07-11 CN CN201821095718.3U patent/CN208790624U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110342182A (en) * | 2019-06-25 | 2019-10-18 | 深圳市华南新海传动机械有限公司 | The driving device of sorter |
CN110451235A (en) * | 2019-06-25 | 2019-11-15 | 深圳市华南新海传动机械有限公司 | Idler wheel transmission module and roller transmissioning device |
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