CN208729683U - A kind of thin-wall barrel bushing device - Google Patents
A kind of thin-wall barrel bushing device Download PDFInfo
- Publication number
- CN208729683U CN208729683U CN201821255062.7U CN201821255062U CN208729683U CN 208729683 U CN208729683 U CN 208729683U CN 201821255062 U CN201821255062 U CN 201821255062U CN 208729683 U CN208729683 U CN 208729683U
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- thin
- suit
- pair
- wall barrel
- rack
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Abstract
The utility model relates to a kind of thin-wall barrel bushing devices, including being set with unit, shifting apparatus, the shifting apparatus setting is above suit unit, the suit unit includes rack, lifting body, lateral surface compressing mechanism, flexible liner mechanism, the flexible liner mechanism is arranged in bottom of the frame, the lifting body includes a pair of jacking component for being symmetricly set on flexible liner mechanism two sides, the pair of jacking component is connected with two opposite sides in rack respectively, and the lateral surface compressing mechanism is connected with the rack of jacking component sides adjacent.The utility model for thin-wall barrel easily deformation the characteristics of, using vertical suit mode from inside to outside, it is automatic to carry out cylinder suit, during suit, using the form of liner, external pressure, the working efficiency of thin-wall barrel suit is effectively increased, the utility model is simple and compact for structure, high degree of automation can substantially reduce the labor intensity of worker, improve the set packing quality of thin-wall barrel.
Description
Technical field
The utility model relates to the technical field of thin-wall barrel suit equipment more particularly to a kind of thin-wall barrel bushing devices
Technical field.
Background technique
Currently, the production method of well known compound thin-wall barrel suit mainly has artificial suit and mechanical two kinds of suit.
Artificial suit is so that inner cylinder is deformed by manually applying external force, to achieve the effect that inner cylinder barrel dliameter is shunk, then passes through auxiliary
It is set with tooling, by the way of Horizontal type socket, the inner cylinder of deformation retract is inserted in outer cylinder, this production method production week
Phase is long, and personnel's occupancy is more, and covers packing quality and be unable to control;Machinery suit also through it is this it is horizontal be inserted in mode, in advance prior to inner cylinder
Increase at port and introduce chamfering, outer cylinder is fixed, and is applied external force and is pushed into inner cylinder in outer cylinder by force in inner cylinder, but due to thin wall cylinder
Body itself wall thickness is relatively thin, and easily deformation occurs, by the way of horizontal suit, deforms greatly after cylinder stress, and be set with
The resistance promoted in journey is very big, is unable to satisfy the manufacturing technique requirent of thin-wall barrel suit.
Summary of the invention
The purpose of this utility model is that fully considering the easily-deformable feature of thin-wall barrel, a kind of thin-wall barrel suit is provided
Device, the utility model is using the suit mode of vertical suit from inside to outside, and compact-sized, the labour that can effectively reduce worker is strong
Degree improves the set packing quality and suit efficiency of thin-wall barrel.
In order to solve the above technical problems, the technical solution adopted in the utility model is as follows.
A kind of thin-wall barrel bushing device, including suit unit, shifting apparatus, the shifting apparatus setting is in suit unit
Top, the suit unit include rack, lifting body, lateral surface compressing mechanism, flexible liner mechanism, the flexible liner mechanism
It is arranged in bottom of the frame, the lifting body includes a pair of jacking component for being symmetricly set on flexible liner mechanism two sides, described
A pair of jacking component two sides opposite in rack is connected respectively, the lateral surface compressing mechanism and jacking component sides adjacent
Rack be connected.
The jacking component includes mounting base, first reducing motors, jacking frame, feed screw nut pair, line slide rail pair, described
Mounting base is connected with rack;The line slide rail pair is arranged in mounting base, and the jacking frame is connected with feed screw nut pair
And can be slided in line slide rail pair, described feed screw nut pair one end is connected with first reducing motors.
The lateral surface compressing mechanism includes guide sleeve, second reducing motors, straight line mould group, connecting rod, compression bar, guide rod, described
Compression bar is connected by connecting rod with straight line mould group, and the straight line mould group is connected with second reducing motors, the guide sleeve setting
On the rack, the guide rod passes through guide sleeve and is connected with compression bar.
The flexible liner mechanism includes set housing, Bidirectional-screw, positive nut, reversed nut, a pair of of sliding sleeve, strut group
Part, the forward direction nut, reversed nut are arranged on Bidirectional-screw, and the Bidirectional-screw setting is inside set housing, two-way silk
Bar one end is connected with driving motor, and the pair of sliding sleeve is connected with positive nut, reversed nut respectively, and sliding sleeve passes through guiding
Sliding rail, guide runner can slide in set housing, be uniformly distributed with several strut components along the circumference on the outside of the set housing.
The strut component includes strut, connecting rod, strut, and the connecting rod two end is connected with strut, sliding sleeve respectively, described
Strut both ends are connected with connecting rod, set housing respectively.
When utility model works (by taking three layers of cylinder are set with as an example), internal layer cylinder is transferred load to flexible liner by shifting apparatus
Right above mechanism, internal layer cylinder position is adjusted, so that internal layer cylinder and flexible liner mechanism are coaxial, at this point, flexible liner mechanism
For contraction state, a pair of jacking component is started to work, and first reducing motors starting, feed screw nut pair rotation, jacking frame is along straight line
Slide rail pair rises to splicing height, and internal layer cylinder is placed on jacking frame by shifting apparatus, decelerating motor reversion, feed screw nut pair
Rotation, jacking frame decline along line slide rail pair, and internal layer cylinder declines therewith and covers outside flexible liner mechanism, work as internal layer cylinder
When dropping at the top of cylinder the top for being slightly above strut, decelerating motor stops operating, and driving motor starts at this time, and Bidirectional-screw turns
Dynamic, the positive nut and reversed nut being arranged on Bidirectional-screw drive a pair of of sliding sleeve covering by directive slide track, guide runner
It is done in housing away from movement, under the action of connecting rod and strut, strut is extended to the outside, until the outside diameter that strut is formed is smaller
When the internal diameter of internal layer cylinder, driving motor stops operating, second reducing motors starting, and straight line mould group passes through connecting rod band dynamic pressure
The movement of bar inner layer cylinder direction, compression bar press to internal layer cylinder lateral surface, internal layer cylinder compressive deformation, until internal layer cylinder is horizontal
Section is substantially at heart-shaped configuration, and shifting apparatus transfers load to middle layer cylinder right above flexible liner mechanism at this time, adjustment middle layer cylinder
Body position, so that middle layer cylinder is inserted in internal layer cylinder by shifting apparatus after the axis of middle layer cylinder and the axis coaxle of internal layer cylinder
Body upper end, decelerating motor inverts at this time, and straight line mould group drives compression bar to leave internal layer cylinder lateral surface, middle layer cylinder by connecting rod
It under the action of shifting apparatus and gravity, is gradually reduced, covers in the outside of internal layer cylinder, after being completely nested, decelerating motor is opened
Dynamic, straight line mould group drives compression bar to move to cylinder direction again by connecting rod, and compression bar presses to middle layer cylinder lateral surface, until
Middle layer cylinder cross section is substantially at heart-shaped configuration, and then, shifting apparatus transfers load to outer layer barrel right above flexible liner mechanism,
Outer layer barrel position is adjusted, so that after the axis coaxle of the axis of outer layer barrel and middle layer cylinder, shifting apparatus is by outer layer barrel
It is inserted in middle layer cylinder upper end, decelerating motor inverts at this time, and straight line mould group drives compression bar to leave on the outside of the cylinder of middle layer by connecting rod
Face, outer layer barrel are gradually reduced under the action of shifting apparatus and gravity, and set outside cylinder, after being completely nested, subtracts in middle level
Speed motor starting, feed screw nut pair rotation, jacking frame rise to splicing height along line slide rail pair, and shifting apparatus will be completed to be set with
Cylinder remove, complete the suit work of thin-wall barrel.
The thin-wall barrel bushing device of the utility model can repeat above-mentioned suit movement according to the demand of complete product, complete
At the suit work of any number of plies cylinder.
The utility model for thin-wall barrel easily deformation the characteristics of, using vertical suit mode from inside to outside, automatically
The suit for carrying out cylinder, using the form of liner, external pressure, effectively increases the work of thin-wall barrel suit during suit
Efficiency, the utility model is simple and compact for structure, high degree of automation, can substantially reduce the labor intensity of worker, improves thin wall cylinder
The set packing quality of body.
Detailed description of the invention
Fig. 1 is the perspective view of the utility model;
Fig. 2 is the top view that the utility model is set with unit;
Fig. 3 is the perspective view that the utility model is set with that unit removes flexible liner mechanism;
Fig. 4 is the main view of the flexible liner mechanism of the utility model;
Fig. 5 is the perspective view of the flexible liner mechanism of the utility model.
Wherein: 1. racks;2. lifting body;3. lateral surface compressing mechanism;4. flexible liner mechanism;5. mounting base;6. first
Decelerating motor;7. jacking frame;8. feed screw nut pair;9. line slide rail pair;10. guide sleeve;11. second reducing motors;12. straight line mould
Group;13. connecting rod;14. compression bar;15. guide rod;16. set housing;17. Bidirectional-screw;18. positive nut;19. reversed nut;
20. strut;21. connecting rod;22. strut;23. driving motor;24. sliding sleeve;25. directive slide track;26. guide runner;30. transfer fills
It sets;101. being set with unit;201. jacking components;401. strut components.
Specific embodiment
The technical solution of the utility model is described in further detail below according to embodiment and attached drawing.
As shown in Figure 1 and Figure 2, a kind of thin-wall barrel bushing device, including suit unit 101, shifting apparatus 30, the shifting
It carries and sets 30 settings above suit unit 101, the suit unit 101 includes rack 1, lifting body 2, lateral surface compressing mechanism
3, flexible liner mechanism 4, in 1 bottom of rack, the lifting body 2 includes that a pair is symmetrically set for the flexible setting of liner mechanism 4
Set the jacking component 201 in flexible 4 two sides of liner mechanism, the pair of jacking component 201 respectively with the upper and lower two sides of rack 1
Face is connected, and the lateral surface compressing mechanism 3 is connected with the right side of rack 1.
As shown in figure 3, the jacking component 201 includes mounting base 5, first reducing motors 6, jacking frame 7, feed screw nut pair
8, line slide rail pair 9, the mounting base 5 are connected with rack 1;The line slide rail pair 9 is arranged in mounting base 5, the top
It rises frame 7 to be connected with feed screw nut pair 8 and can slide in line slide rail pair 9,8 lower end of feed screw nut pair is slowed down with first
Motor 6 is connected.
As shown in figure 3, the lateral surface compressing mechanism 3 include two guide sleeves 10, second reducing motors 11, straight line mould group 12,
14, two connecting rod 13, compression bar guide rods 15, the compression bar 14 are connected by connecting rod 13 with straight line mould group 12, the straight line
Mould group 12 is connected with second reducing motors 11, and described two guide sleeves 10 are arranged in parallel in rack 1, and two guide rods 15 divide
Not Chuan Guo two guide sleeves be connected with 14 both ends of compression bar.
As shown in Figure 4, Figure 5, the flexible liner mechanism 4 include set housing 16, it is Bidirectional-screw 17, positive nut 18, anti-
To nut 19, a pair of of sliding sleeve 24, strut component 401, the forward direction nut 18, reversed nut 19 are arranged on Bidirectional-screw 17,
The setting of Bidirectional-screw 17 is inside set housing 16, and 17 bottom end of Bidirectional-screw is connected with driving motor 23, the pair of cunning
Set 24 is connected with positive nut 18, reversed nut 19 respectively, and sliding sleeve 24 can be in body by directive slide track 25, guide runner 26
It is slided on seat 16, is uniformly distributed with six strut components 401 on the outside of the set housing 16 along the circumference.
The strut component 401 includes 21, two, the connecting rod of strut 20, two strut 22, described 21 one end of connecting rod and strut
20 are connected, and the other end is connected with sliding sleeve 24, and described 22 one end of strut is connected with connecting rod 21, the other end and set 16 phase of housing
Connection.
For the present embodiment by taking the suit of three layers of thin-wall barrel as an example, specific work process is as follows:
Shifting apparatus 30 transfers load to internal layer cylinder right above flexible liner mechanism 4, internal layer cylinder position is adjusted, so that interior
Layer cylinder and flexible liner mechanism 4 are coaxial, at this point, flexible liner mechanism 4 is contraction state, a pair of jacking component 201 starts work
Make, first reducing motors 6 start, and feed screw nut pair 8 rotates, and jacking frame 7 rises to splicing height, transfer along line slide rail pair 9
Internal layer cylinder is placed on jacking frame 7 by device, and first reducing motors 6 invert, and feed screw nut pair 8 rotates, and jacking frame 7 is along straight line
Slide rail pair 9 declines, and internal layer cylinder declines therewith and covers outside flexible liner mechanism 4, when internal layer cylinder drops at the top of cylinder
Slightly above the top of strut 20 when, first reducing motors 6 stop operating, at this time driving motor 23 start, Bidirectional-screw 17 rotate,
The positive nut 18 and reversed nut 19 being arranged on Bidirectional-screw 17 drive a pair of of sliding sleeve 24 to slide by directive slide track 25, guiding
Block 26 is done in set housing 16 away from movement, and under the action of connecting rod 21 and strut 22, six roots of sensation strut 20 is extended to the outside, and works as the six roots of sensation
When the outside diameter that strut is formed is slightly less than the internal diameter of internal layer cylinder, driving motor 23 stops operating, and second reducing motors 11 open
Dynamic, straight line mould group 12 drives the movement of 14 inner layer cylinder direction of compression bar by connecting rod 13, and compression bar 14 is to internal layer cylinder lateral surface
Pressure, internal layer cylinder compressive deformation, until internal layer cylinder cross section is substantially at heart-shaped configuration, shifting apparatus is by middle layer cylinder at this time
It transfers load to right above flexible liner mechanism 4, middle layer cylinder position is adjusted, so that the axis of the axis of middle layer cylinder and internal layer cylinder
After coaxial, middle layer cylinder is inserted in internal layer cylinder upper end by shifting apparatus, and second reducing motors 11 invert at this time, and straight line mould group 12 is logical
Crossing connecting rod 13 drives compression bar 14 to leave internal layer cylinder lateral surface, and middle layer cylinder is under the action of shifting apparatus and gravity, middle layer
Cylinder is gradually reduced, and is covered outside internal layer cylinder, and after being completely nested, second reducing motors 11 start, and straight line mould group 12 passes through
Connecting rod 13 drives compression bar 14 to move to cylinder direction again, and compression bar 14 presses to middle layer cylinder lateral surface, until middle layer cylinder
Cross section is substantially at heart-shaped configuration, and then, shifting apparatus transfers load to outer layer barrel right above flexible liner mechanism 4, and adjustment is outer
Layer cylinder position, so that after the axis coaxle of the axis of outer layer barrel and middle layer cylinder, during outer layer barrel is inserted in by shifting apparatus
Layer cylinder upper end, second reducing motors 11 invert at this time, and straight line mould group 12 drives compression bar 14 to leave middle layer cylinder by connecting rod 13
Outside, under the action of shifting apparatus and gravity, outer layer barrel is gradually reduced outer layer barrel, is covered outside cylinder in middle level,
After being completely nested, first reducing motors 6 start, and feed screw nut pair 8 rotates, and jacking frame 7 rises to splicing along line slide rail pair 9
Highly, shifting apparatus removes the cylinder for completing suit, completes the suit work of thin-wall barrel.
The thin-wall barrel bushing device of the utility model can repeat above-mentioned suit movement according to the demand of complete product, complete
At the suit work of any number of plies cylinder.
The utility model for thin-wall barrel easily deformation the characteristics of, using vertical suit mode from inside to outside, automatically
Cylinder suit is carried out, during suit, using the form of liner, external pressure, effectively increases the work effect of thin-wall barrel suit
Rate, the utility model is simple and compact for structure, high degree of automation, can substantially reduce the labor intensity of worker, improves thin-wall barrel
Set packing quality.
Claims (5)
1. a kind of thin-wall barrel bushing device, including suit unit (101), shifting apparatus (30), it is characterised in that: the transfer
Above suit unit (101), the suit unit (101) includes rack (1), lifting body (2), side for device (30) setting
Hold-down mechanism (3), flexible liner mechanism (4), the flexible liner mechanism (4) are arranged in rack (1) bottom, the lifting body
It (2) include jacking component (201) that a pair is symmetricly set on flexible liner mechanism (4) two sides, the pair of jacking component (201)
It is connected respectively with the upper two opposite sides of rack (1), the lateral surface compressing mechanism (3) and jacking component (201) sides adjacent
Rack (1) be connected.
2. thin-wall barrel bushing device according to claim 1, it is characterised in that: the jacking component (201) includes peace
It is secondary (9) to fill seat (5), first reducing motors (6), jacking frame (7), feed screw nut pair (8), line slide rail, the mounting base (5) with
Rack (1) is connected;The line slide rail secondary (9) is arranged on mounting base (5), the jacking frame (7) and feed screw nut pair (8)
It is connected and can be slided on line slide rail secondary (9), described feed screw nut pair (8) one end is connected with first reducing motors (6).
3. thin-wall barrel bushing device according to claim 1, it is characterised in that: the lateral surface compressing mechanism (3) includes
Guide sleeve (10), second reducing motors (11), straight line mould group (12), connecting rod (13), compression bar (14), guide rod (15), it is described
Compression bar (14) is connected by connecting rod (13) with straight line mould group (12), the straight line mould group (12) and second reducing motors (11)
It is connected, the guide sleeve (10) is arranged on rack (1), and the guide rod (15) passes through guide sleeve and is connected with compression bar (14).
4. thin-wall barrel bushing device according to claim 1, it is characterised in that: the flexible liner mechanism (4) includes
Housing (16), Bidirectional-screw (17), positive nut (18), reversed nut (19), a pair of of sliding sleeve (24), strut component (401) are covered,
The forward direction nut (18), reversed nut (19) are arranged on Bidirectional-screw (17), and the Bidirectional-screw (17) is arranged in body
Seat (16) is internal, and Bidirectional-screw (17) one end is connected with driving motor (23), the pair of sliding sleeve (24) respectively with positive spiral shell
Female (18), reversed nut (19) are connected, and sliding sleeve (24) can be in set housing (16) by directive slide track (25), guide runner (26)
Upper sliding, set housing (16) outside are uniformly distributed with several strut components (401) along the circumference.
5. thin-wall barrel bushing device according to claim 4, it is characterised in that: the strut component (401) includes support
Bar (20), connecting rod (21), strut (22), connecting rod (21) both ends are connected with strut (20), sliding sleeve (24) respectively, the branch
Bar (22) both ends are connected with connecting rod (21), set housing (16) respectively.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821255062.7U CN208729683U (en) | 2018-08-06 | 2018-08-06 | A kind of thin-wall barrel bushing device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821255062.7U CN208729683U (en) | 2018-08-06 | 2018-08-06 | A kind of thin-wall barrel bushing device |
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Publication Number | Publication Date |
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CN208729683U true CN208729683U (en) | 2019-04-12 |
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ID=66029735
Family Applications (1)
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CN201821255062.7U Withdrawn - After Issue CN208729683U (en) | 2018-08-06 | 2018-08-06 | A kind of thin-wall barrel bushing device |
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CN (1) | CN208729683U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108724095A (en) * | 2018-08-06 | 2018-11-02 | 中船重工鹏力(南京)智能装备系统有限公司 | A kind of thin-wall barrel bushing device |
CN110281188A (en) * | 2019-06-13 | 2019-09-27 | 交通运输部南海航海保障中心北海航标处 | A kind of equipment for installing navigation mark lamp frame and counterweight |
-
2018
- 2018-08-06 CN CN201821255062.7U patent/CN208729683U/en not_active Withdrawn - After Issue
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108724095A (en) * | 2018-08-06 | 2018-11-02 | 中船重工鹏力(南京)智能装备系统有限公司 | A kind of thin-wall barrel bushing device |
CN110281188A (en) * | 2019-06-13 | 2019-09-27 | 交通运输部南海航海保障中心北海航标处 | A kind of equipment for installing navigation mark lamp frame and counterweight |
CN110281188B (en) * | 2019-06-13 | 2024-04-12 | 交通运输部南海航海保障中心北海航标处 | Equipment for installing navigation mark lamp bracket and counterweight |
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Legal Events
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned | ||
AV01 | Patent right actively abandoned | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20190412 Effective date of abandoning: 20230801 |
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AV01 | Patent right actively abandoned |
Granted publication date: 20190412 Effective date of abandoning: 20230801 |