CN205906600U - A high -speed arrangement mechanism of arranging for small -size carton - Google Patents
A high -speed arrangement mechanism of arranging for small -size carton Download PDFInfo
- Publication number
- CN205906600U CN205906600U CN201620848276.XU CN201620848276U CN205906600U CN 205906600 U CN205906600 U CN 205906600U CN 201620848276 U CN201620848276 U CN 201620848276U CN 205906600 U CN205906600 U CN 205906600U
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- CN
- China
- Prior art keywords
- cam
- sucker
- rotating disk
- installing plate
- vacuum
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn - After Issue
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Abstract
The utility model discloses a high -speed arrangement structure of arranging of small -size carton, including decollator actuating mechanism, static load utensil rotary assembly, move carrier cam pack and vacuum and frame subassembly, decollator actuating mechanism and static load utensil rotary assembly erection joint, static load utensil rotary assembly with move the carrier cam pack and install respectively in the front and back of carousel, to pass through the fastening screw installation fixed with moving the carrier cam pack for vacuum and frame subassembly, and through the pipeline intercommunication. The utility model discloses a decollator actuating mechanism drives static load utensil rotary assembly and moves that the carrier cam pack is high -speed to rotate, and vacuum and frame subassembly be for the system provides required suction, moves the carrier cam pack and adsorbs product when circular motion is to the main shaft and be rotary motion along cam orbit self, realizes the quick purpose of putting in order of arranging.
Description
Technical field
This utility model is related to a kind of arrangement dressing mechanism, and more particularly, to a kind of high speed arrangement for small-sized carton arranges
Structure.
Background technology
In prior art, the packaging product of small-sized carton class has production in a large amount of factories, and traditional streamline arrangement is whole
Reason machine has that speed is slow, error rate is high, do not enable the drawbacks such as carton inverted arrangement, therefore requires speed fast at some, technique
More complicated arrangement arranges station, is all to go to complete by a lot of manpowers mostly, corresponding human cost also greatly improves.
Utility model content
In order to overcome the deficiencies in the prior art, this utility model provides a kind of arrangement of the high speed for small-sized carton to arrange
Knot, by dispenser driving rotating disk high-speed rotation and machine driving conversion, realize while product rotates around the spindle itself also around
Little axle rotation, realizes the purpose that quick arrangement arranges.
For this reason, this utility model provides a kind of arrangement of the high speed for small-sized carton to arrange structure, drive including dispenser
Mechanism, static load tool rotary disc assembly, dynamic load tool cam pack, vacuum and housing assembly.
Divider driving mechanism is installed with static load tool rotary disc assembly and is connected.
Static load has rotary disc assembly and has, with dynamic load, the front and back that cam pack is separately mounted to rotating disk.
Vacuum and housing assembly are installed by trip bolt with dynamic load tool cam pack and are fixed, and pass through pipeline connection.
Static load is driven to have rotary disc assembly and dynamic load tool cam pack high-speed rotation, vacuum and machine by divider driving mechanism
Frame assembly suction needed for system offer, dynamic load tool cam pack adsorption production around main shaft move in a circle while product along convex
Wheel track itself rotates.
Described divider driving mechanism includes motor, dispenser and flange mounting disc, the output of described motor
The input shaft of end and dispenser realizes torque transmission by key is direct-connected, and trip bolt and dispenser installation are passed through in flange mounting disc
Fixing.
Described static load tool rotary disc assembly include the first guard shield, the first installing plate, turn air parcel, sucker installing plate, support column, the
One sucker and flange ring, described first sucker is arranged in sucker installing plate, and sucker installing plate is fixed on the first installing plate;Institute
State the first guard shield, the first installing plate, turn air parcel, support column and flange ring and be fixed on rotating disk by screw respectively, and described turn
Air parcel and rotating disk connect the shared road source of the gas of sucker realizing rotating disk two sides, when providing a road vacuum, two sides by trachea
Sucker can work adsorption production simultaneously, described support column connects flange mounting disc on dispenser with rotating disk to realize splitting
Device driving rotating disk rotates, and described flange ring is inserted in concentric with dispenser output shaft to guarantee rotating disk in the axle of dispenser output panel;
Described first sucker suction product rotates around the spindle.
Described dynamic load tool cam pack include the second sucker, substrate, the second guard shield, the second installing plate, flange, first turn
Axle, bearing assembly, fixed plate, first bevel gear, second bevel gear, spur gear, tooth bar, cam following device assembly, cam and rotation
Adaptor, Cam Follower, follower installing plate, line rail slide block, spur rack, spur gear, the second rotating shaft, the first helical gear,
Two helical gears and rolling bearing units.
Described second guard shield by screw install with rotating disk on, described second installing plate is installed on flange, flange and the
One rotating shaft is connected by screw locking.
The fixing end of described swivel joint is connected with support, and round end is fixed with rotating disk, when turntable rotation, described rotation
Joint can prevent unnecessary trachea transfer on rotating disk and knotting, is easy to stringing flat.
Described second sucker is installed in substrate and is connected with first rotating shaft;Described first bevel gear, second bevel gear are divided
The tangent installation of degree circle is fixed;The tangent installation of described spur gear, tooth bar reference circle is fixed, and tooth bar is installed on cam following device assembly
On, the cam bawl of cam following device assembly slides in the track groove of cam.
Described Cam Follower can freely slide in the curved groove of cam, and Cam Follower is installed on follower installing plate
On, and the follower installing plate other end is connected with line rail slide block by screw;Spur rack is fixed by screws on line rail slide block,
And spur rack is engaged with spur gear, spur gear is fixed with the second rotating shaft, and the second rotating shaft runs through described rolling bearing units, and passes through screw
It is connected with the first helical gear, described helical gear is engaged each other with the second helical gear, the second helical gear and first rotating shaft are fixed, cam
It is fixedly installed on support.
When rotating disk rotates, Cam Follower moves along cam inside groove track, and the line rail slide block being simultaneously connected with drives straight-tooth
Bar linear reciprocating motion, spur rack is engaged with spur gear, the second drive axis of rotation, thus driving the first helical gear to rotate, the
One helical gear is engaged each other with the second helical gear, and the second helical gear drives first rotating shaft to rotate, thus being converted into the second sucker eventually
And the rotation of substrate, realize the rotation of adsorption production.
Described vacuum and housing assembly suction needed for system offer, including pressure vacuum gauge, vacuum generator assembly, pressure
Power table installing plate and support;Described pressure vacuum gauge is installed on pressure gauge installing plate, and is fixed on the back side of described support, institute
State vacuum generator assembly to be fixed on above support.
Further, leading portion streamline and back segment streamline are also included, product is transported to sucker suction region through leading portion streamline,
Vacuum and housing assembly work, vacuum is opened, adsorption production, turntable rotation, drives dynamic load tool cam pack motion, realizes dynamic load
Rotation while the product revolution of absorption on tool cam pack, the revolution of static load tool rotary disc assembly adsorption production, revolves round the sun 180 ° simultaneously
Afterwards, fall on back segment streamline, discharge vacuum simultaneously, product flows into next station.
This utility model passes through dispenser driving rotating disk high-speed rotation, is changed by a series of machine driving, realizes product
While rotating around the spindle, itself also rotates around the shaft, realizes the purpose that quick arrangement arranges.
Brief description
Fig. 1 is scantling plan of the present utility model;
Fig. 2 is the structural representation of divider driving mechanism in this utility model;
Fig. 3 is the structural representation that in this utility model, static load has rotary disc assembly;
Fig. 4, Fig. 5 and Fig. 6 are the structural representation that in this utility model, dynamic load has cam pack;
Fig. 7 is the structural representation of vacuum and housing assembly in this utility model;
Fig. 8 is the production line structural representation of leading portion streamline and back segment streamline in this utility model.
Specific embodiment
Below in conjunction with the accompanying drawings embodiment of the present utility model is described in detail.
Refer to Fig. 1 and Fig. 8, this utility model provides a kind of arrangement of the high speed for small-sized carton to arrange structure, including
Divider driving mechanism 1, static load tool rotary disc assembly 2, dynamic load tool cam pack 3, vacuum and housing assembly 4, leading portion streamline 50 and
Back segment streamline 51.
Divider driving mechanism 1 has rotary disc assembly 2 installation with static load and is connected.
Static load has rotary disc assembly 2 and has, with dynamic load, the front and back that cam pack 3 is separately mounted to rotating disk 15.
Vacuum and housing assembly 4 are installed by trip bolt with dynamic load tool cam pack 3 and are fixed, and pass through pipeline connection.
Static load is driven to have rotary disc assembly 2 and dynamic load tool cam pack 3 high-speed rotation, vacuum by divider driving mechanism 1
And housing assembly 4 for system offer needed for suction, dynamic load tool cam pack 3 adsorption production around main shaft move in a circle while produce
Product rotate along cam locus itself.
Refer to Fig. 2, described divider driving mechanism 1 includes motor 5, dispenser 6 and flange mounting disc 7, described
The outfan of motor 5 realizes torque transmission with the input shaft of dispenser by key 6 is direct-connected, and flange mounting disc 7 is passed through tight
Gu screw is installed with dispenser 6 and is fixed.
Refer to Fig. 3, described static load tool rotary disc assembly 2 includes the first guard shield 8, the first installing plate 9, turns air parcel 10, sucker
Installing plate 11, support column 12, the first sucker 13 and flange ring 14, described first sucker 13 is arranged in sucker installing plate 11, inhales
Disk installing plate 11 is fixed on the first installing plate 9;Described first guard shield 8, the first installing plate 9, turn air parcel 10, support column 12 and method
Blue ring 14 is fixed on rotating disk 15 by screw respectively, and described turns air parcel 10 and rotating disk 15 is connected by trachea and realizes rotating disk
The sucker on 15 two sides shares a road source of the gas, and when providing a road vacuum, the sucker on two sides can work adsorption production simultaneously, described
The flange mounting disc 7 that support column 12 connects on dispenser 6 is rotated with realizing dispenser 6 driving rotating disk 15 with rotating disk 15, described method
Blue ring 14 is inserted in concentric with dispenser 6 output shaft to guarantee rotating disk 15 in the axle of dispenser 6 output panel;Described first sucker 13 is inhaled
By-product rotates around the spindle.
Refer to Fig. 4 to Fig. 8, described dynamic load tool cam pack 3 include the second sucker 16, substrate 17, the second guard shield 18, the
Two installing plates 19, flange 20, first rotating shaft 21, bearing assembly 22, fixed plate 23, first bevel gear 24, second bevel gear 25, straight
Gear 26, tooth bar 27, cam following device assembly 28, cam 29 and swivel joint 30, Cam Follower 35, follower installing plate
36th, line rail slide block 37, spur rack 38, spur gear 39, the second rotating shaft 40, the first helical gear 41, the second helical gear 42 and axle of usheing to seat
Hold 43.
Described second guard shield 18 by screw install with rotating disk 15 on, described second installing plate 19 is installed on flange 20,
Flange 20 is connected by screw locking with first rotating shaft 21.
The fixing end of described swivel joint 30 is connected with support 34, and round end is fixing with rotating disk 15, when rotating disk 15 rotates,
Described swivel joint 30 can prevent unnecessary trachea transfer on rotating disk 15 and knotting, is easy to stringing flat.
Described second sucker 16 is installed in substrate 17 and is connected with first rotating shaft 21;Described first bevel gear 24, second
The tangent installation of bevel gear 25 reference circle is fixed;The tangent installation of described spur gear 26, tooth bar 27 reference circle is fixed, and tooth bar 27 is installed
In cam following device assembly 28, the cam bawl of cam following device assembly 28 slides in the track groove of cam 29.
Described Cam Follower 35 can freely slide in the curved groove of cam 29, and Cam Follower 35 is installed on follower
On installing plate 36, and follower installing plate 36 other end is connected with line rail slide block 37 by screw;It is solid that spur rack 38 passes through screw
It is scheduled on line rail slide block 37, and spur rack 38 is engaged with spur gear 39, spur gear 39 and the second rotating shaft 40 are fixing, the second rotating shaft 40
Run through described rolling bearing units 43, and be connected with the first helical gear 41 by screw, described helical gear 41 and the second helical gear 42 phase
Mutually engage, the second helical gear 42 is fixing with first rotating shaft 21, and cam 29 is fixedly installed on support 34.
Refer to Fig. 7, described vacuum and housing assembly 4 suction needed for system offer, including pressure vacuum gauge 31, vacuum
Generator assembly 32, pressure gauge installing plate 33 and support 34;Described pressure vacuum gauge 31 is installed on pressure gauge installing plate 33, and
It is fixed on the back side of described support 34, described vacuum generator assembly 32 is fixed on above support 34.
During work, product is transported to sucker suction region through leading portion streamline 50, and vacuum and housing assembly 4 work, vacuum
Open, rotating disk 15 rotates, when rotating disk 15 rotates, Cam Follower 35 moves along cam 29 inside groove track, the line being simultaneously connected with
Rail slide block 37 drives spur rack 38 linear reciprocating motion, and spur rack 38 is engaged with spur gear 39, and the second drive rotating shaft 40 rotates, from
And driving the first helical gear 41 to rotate, the first helical gear 41 and the second helical gear 42 engage each other, and the second helical gear 42 drives the
One rotating shaft 21 rotates, thus being converted into the rotation of the second sucker 16 and substrate 17 eventually, realizes the rotation of adsorption production;Static load simultaneously
Tool rotary disc assembly 2 adsorption production revolution, after 180 ° of revolution, falls on back segment streamline 51, discharges vacuum simultaneously, and product flows into next
Station.
This utility model passes through dispenser driving rotating disk high-speed rotation, is changed by a series of machine driving, realizes product
While rotating around the spindle, itself also rotates around the shaft, realizes the purpose that quick arrangement arranges.
The above, only this utility model preferably specific embodiment, but protection domain of the present utility model is not
Be confined to this, any those familiar with the art in the technical scope that this utility model discloses, according to this practicality
New technical scheme and its utility model design in addition equivalent or change, all should cover in protection model of the present utility model
Within enclosing.
Claims (6)
1. a kind of high speed arrangement for small-sized carton arranges structure it is characterised in that including divider driving mechanism (1), quiet
Carrier rotary disc assembly (2), dynamic load tool cam pack (3), vacuum and housing assembly (4), wherein:
Divider driving mechanism (1) is installed with static load tool rotary disc assembly (2) and is connected;
Static load has rotary disc assembly (2) and has, with dynamic load, the front and back that cam pack (3) is separately mounted to rotating disk (15);
Vacuum and housing assembly (4) are installed by trip bolt with dynamic load tool cam pack (3) and are fixed, and pass through pipeline connection;
Static load is driven to have rotary disc assembly (2) and dynamic load tool cam pack (3) high-speed rotation by divider driving mechanism (1), very
Sky and housing assembly (4) suction needed for system offer, dynamic load tool cam pack (3) adsorption production moves in a circle around main shaft
Product rotates along cam locus itself simultaneously.
2. a kind of high speed arrangement dressing mechanism for small-sized carton according to claim 1 is it is characterised in that described point
Cutter drive mechanism (1) includes motor (5), dispenser (6) and flange mounting disc (7), the output of described motor (5)
The input shaft of end and dispenser realizes torque transmission by key (6) is direct-connected, and trip bolt and segmentation are passed through in flange mounting disc (7)
Device (6) is installed and is fixed.
3. a kind of high speed arrangement dressing mechanism for small-sized carton according to claim 1 is it is characterised in that described quiet
Carrier rotary disc assembly (2) includes the first guard shield (8), the first installing plate (9), turns air parcel (10), sucker installing plate (11), support column
(12), the first sucker (13) and flange ring (14), described first sucker (13) is arranged in sucker installing plate (11), and sucker is installed
Plate (11) is fixed on the first installing plate (9);Described first guard shield (8), the first installing plate (9), turn air parcel (10), support column
And flange ring (14) is fixed on rotating disk (15) by screw respectively, and described turn air parcel (10) and rotating disk (15) passes through gas (12)
Pipe connects the shared road source of the gas of sucker to realize rotating disk (15) two sides, and when providing a road vacuum, the sucker on two sides can be same
When work adsorption production, described support column (12) connects flange mounting disc (7) on dispenser (6) and rotating disk (15) to realize point
Cutter (6) driving rotating disk (15) rotates, and described flange ring (14) is inserted in the axle of dispenser (6) output panel to guarantee rotating disk (15)
Concentric with dispenser (6) output shaft;Described first sucker (13) adsorption production rotates around the spindle.
4. a kind of high speed arrangement for small-sized carton according to claim 1 arranges structure it is characterised in that described move
Carrier cam pack (3) includes the second sucker (16), substrate (17), the second guard shield (18), the second installing plate (19), flange
(20), first rotating shaft (21), bearing assembly (22), fixed plate (23), first bevel gear (24), second bevel gear (25), straight-tooth
Wheel (26), tooth bar (27), cam following device assembly (28), cam (29) and swivel joint (30), Cam Follower (35), servo-actuated
Device installing plate (36), line rail slide block (37), spur rack (38), spur gear (39), the second rotating shaft (40), the first helical gear (41),
Second helical gear (42) and rolling bearing units (43);Wherein:
Described second guard shield (18) is by, on screw installation and rotating disk (15), described second installing plate (19) is installed on flange (20)
On, flange (20) is connected by screw locking with first rotating shaft (21);
The fixing end of described swivel joint (30) is connected with support (34), and round end is fixing with rotating disk (15), when rotating disk (15) rotation
When turning, described swivel joint (30) can prevent the upper unnecessary trachea transfer of rotating disk (15) and knotting, is easy to stringing flat;
Described second sucker (16) is installed in substrate (17) and is connected with first rotating shaft (21);Described first bevel gear (24),
The tangent installation of second bevel gear (25) reference circle is fixed;Described spur gear (26), the tangent installation of tooth bar (27) reference circle are fixed, and
Tooth bar (27) is installed in cam following device assembly (28), the cam bawl of cam following device assembly (28) rail in cam (29)
Slide in mark groove;
Described Cam Follower (35) can freely be slided in the curved groove of cam (29), and Cam Follower (35) is installed on servo-actuated
On device installing plate (36), and follower installing plate (36) other end is connected with line rail slide block (37) by screw;Spur rack (38)
Be fixed by screws on line rail slide block (37), and spur rack (38) engaged with spur gear (39), spur gear (39) with second turn
Axle (40) is fixing, and the second rotating shaft (40) runs through described rolling bearing units (43), and is connected with the first helical gear (41) by screw, institute
State helical gear (41) to engage each other with the second helical gear (42), the second helical gear (42) is fixing with first rotating shaft (21), cam
(29) it is fixedly installed on support (34);
When rotating disk (15) rotates, Cam Follower (35) moves along cam (29) inside groove track, the line rail slide block being simultaneously connected with
(37) drive spur rack (38) linear reciprocating motion, spur rack (38) is engaged with spur gear (39), second drives rotating shaft (40) to turn
Dynamic, thus driving the first helical gear (41) to rotate, the first helical gear (41) is engaged each other with the second helical gear (42), the second helical teeth
Wheel (42) drives first rotating shaft (21) to rotate, thus being converted into the second sucker (16) and the rotation of substrate (17) eventually, realizes absorption
The rotation of product.
5. a kind of high speed arrangement for small-sized carton according to claim 1 arranges structure it is characterised in that described true
Sky and housing assembly (4) suction needed for system offer, including pressure vacuum gauge (31), vacuum generator assembly (32), pressure
Table installing plate (33) and support (34);Described pressure vacuum gauge (31) is installed on pressure gauge installing plate (33), and is fixed on institute
State the back side of support (34), described vacuum generator assembly (32) is fixed on above support (34).
6. a kind of high speed arrangement for small-sized carton according to claim 1 arranges structure it is characterised in that also including
Leading portion streamline (50) and back segment streamline (51), product is transported to sucker suction region, vacuum and frame through leading portion streamline (50)
Assembly (4) works, and vacuum is opened, adsorption production, and rotating disk (15) rotates, and drives dynamic load tool cam pack (3) motion, realizes dynamic load
Rotation while the product revolution of tool cam pack (3) upper absorption, the revolution of static load tool rotary disc assembly (2) adsorption production, public simultaneously
After turning 180 °, fall on back segment streamline (51), discharge vacuum simultaneously, product flows into next station.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620848276.XU CN205906600U (en) | 2016-08-08 | 2016-08-08 | A high -speed arrangement mechanism of arranging for small -size carton |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620848276.XU CN205906600U (en) | 2016-08-08 | 2016-08-08 | A high -speed arrangement mechanism of arranging for small -size carton |
Publications (1)
Publication Number | Publication Date |
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CN205906600U true CN205906600U (en) | 2017-01-25 |
Family
ID=57804207
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201620848276.XU Withdrawn - After Issue CN205906600U (en) | 2016-08-08 | 2016-08-08 | A high -speed arrangement mechanism of arranging for small -size carton |
Country Status (1)
Country | Link |
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CN (1) | CN205906600U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106115193A (en) * | 2016-08-08 | 2016-11-16 | 苏州天准科技股份有限公司 | A kind of high speed for small-sized carton arranges dressing mechanism |
-
2016
- 2016-08-08 CN CN201620848276.XU patent/CN205906600U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106115193A (en) * | 2016-08-08 | 2016-11-16 | 苏州天准科技股份有限公司 | A kind of high speed for small-sized carton arranges dressing mechanism |
CN106115193B (en) * | 2016-08-08 | 2019-01-08 | 苏州天准科技股份有限公司 | A kind of high speed arrangement dressing mechanism for small-sized carton |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20170125 Effective date of abandoning: 20190108 |
|
AV01 | Patent right actively abandoned |