CN205928889U - Take four bar mechanism's concora crush flat -die cutter - Google Patents
Take four bar mechanism's concora crush flat -die cutter Download PDFInfo
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- CN205928889U CN205928889U CN201620790825.2U CN201620790825U CN205928889U CN 205928889 U CN205928889 U CN 205928889U CN 201620790825 U CN201620790825 U CN 201620790825U CN 205928889 U CN205928889 U CN 205928889U
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- eccentric shaft
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- flat
- fixed seat
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Abstract
The utility model discloses a take four bar mechanism's concora crush flat -die cutter, eccentric shaft mechanism, link mechanism, middle slide mechanism, paper placement machine including setting up on the frame construct and drive mechanism, and eccentric shaft mechanism, link mechanism and drive mechanism all set up in the top that paper placement machine constructs, the first gear of eccentric shaft mechanism and second gear overlap respectively to be established at the epaxial both ends of first off -centre, and the one end at the second eccentric shaft is established to the third geared sleeve, drive mechanism is connected with first gear drive, and the second gear is connected with the 3rd gear engagement, be fixed with two first connecting rods on the middle part of first eccentric shaft and the middle part of second eccentric shaft respectively, four guiding collars of middle slide mechanism around constructing at paper placement machine, the one end of every guiding axle respectively with the roof fixed connection of frame, and the curb plate fixing base fixed connection of the other end of every guiding axle and frame, four first connecting rod drive connecting rod mechanisms, slide mechanism reciprocates on four guiding axles in the middle of realizing.
Description
Technical field
This utility model is related to the technical field of flat pressing flat die-cutting, more particularly, to a kind of flat-press flat-die with four-bar linkage structure
Cut machine.
Background technology
Flat-press flat-die cutting machine is the capital equipment of printing packaging industry.The operation principle of die-cutting machine is using steel knife, five metals
The masterplate that mould, steel wire or steel engraving become, is imprinted with version and applies certain pressure, printing or cardboard cutting are become certain
Shape, paper is sent into the tension force bellows of die-cutting machine by dexter feeder, and paper is stretched by bellows, and paper is pulled out laggard by cross cutting draw cylinder
Enter rewinding machine or other processing machines wound or other operations processing.The critical part of die-cutting machine is cross cutting platen and pressure
Cut mechanism, processed plate just belongs between both, complete the ornamenting treatment technology being die cut under the effect of the pressure;But it is existing
With the presence of the following defect of flat-press flat-die cutting machine:
The drive mechanism of existing flat-press flat-die cutting machine generally in the decentralization of paper, when being die cut base plate and maintaining static mode
Must move up and down to drive crush-cutting mechanism by the axis of guide, and the detent mechanism position length of the axis of guide cannot be made oversize
Cannot be made too slightly with axle, therefore have impact on the stability of cross cutting.
These problems above-mentioned existing flat-press flat-die cutting machine is all existed cross cutting stability is not high, pressure is difficult lacking of adjusting
Fall into.
Utility model content
For weak point present in above-mentioned technology, this utility model provides the band that a kind of structure is simple and convenient to operate
The flat-press flat-die cutting machine of four-bar linkage structure, drive mechanism is placed on above paper, and the axis of guide maintains static so that die-cutting machine
Pressure is more stable, improves production efficiency.
In order to achieve the above object, a kind of flat-press flat-die cutting machine with four-bar linkage structure of this utility model, including being arranged on
Eccentric shaft mechanism on support, linkage, middle slide carriage mechanism, paper placement mechanism and drive mechanism, described eccentric shaft machine
Structure, linkage and drive mechanism are arranged at the top of paper placement mechanism;Described eccentric shaft mechanism include first gear,
It is inclined that one eccentric shaft, the second eccentric shaft, second gear and the 3rd gear, described first gear and second gear are respectively sleeved at first
Two ends on heart axle, described 3rd gear is set in one end of the second eccentric shaft;Described drive mechanism is driven even with first gear
Connect, described second gear is connected with the 3rd gear engagement;Divide on the middle part of the middle part of described first eccentric shaft and the second eccentric shaft
It is not fixed with two first connecting rods;Described middle slip mechanism is provided with middle slide carriage and four axis of guides, and four axis of guides divide
Not Wei Yu paper placement mechanism both sides, one end of the every axis of guide is fixedly connected with the top board of support respectively, and every guiding
The other end of axle is fixedly connected with the side plate fixed seat of support;Four first connecting rods, linkage and middle slide carriage link successively
Connect, and four first connecting rod drivening rod mechanisms drive middle slide carriage mechanism to move up and down on four axis of guides again.
Wherein, described eccentric shaft mechanism also includes thrust ball bearing, deep groove ball bearing, eccentric bearing block, gear fixed seat
With eccentric shaft fixed seat, described first eccentric shaft is arranged on eccentric bearing block, and described thrust ball bearing to be arranged on first inclined
One end of heart axle;Described gear fixed seat is fixedly connected with one end of the second eccentric shaft, and the inner ring of described 3rd gear passes through
Gear fixed seating is located on the second eccentric shaft;Described eccentric bearing block is fixed in eccentric shaft fixed seat, and described eccentric shaft
Fixed seat is fixed on the top board of support.
Wherein, described linkage includes dead axle fixed seat, second connecting rod, four first dead axles and two second dead axles,
Described second connecting rod is fixed therein one end of two first dead axles in top, and in addition lower section two second dead axle is fixed on dead axle admittedly
In reservation, described dead axle fixed seat is fixed on middle slide carriage, and top two first dead axle is fixed with eccentric shaft fixed seat respectively
Connect, the other end of middle two first dead axles is connected with four first connecting rods respectively.
Wherein, described middle slide carriage mechanism also includes square block ball bearing, linear bearing, linear bearing seat, the axis of guide are fixed
Seat and oil pipe, one end of the described axis of guide is fixed on the top board of support by axis of guide fixed seat, the described axis of guide another
End is fixed in the side plate fixed seat of support by square block ball bearing, and described linear bearing is arranged in linear bearing seat, described
Linear bearing seat is fixed on middle slide carriage, and the endoporus of described linear bearing is slided with axis of guide cooperation, and described oil pipe is connected to
On the axis of guide, in the described axis of guide, it is provided with oil filler point, and described oil pipe passes through oil filler point to linear bearing fuel feeding.
Wherein, described drive mechanism includes servomotor, power transmission shaft and travelling gear, and described servomotor passes through power transmission shaft
With travelling gear drive connection, and the engagement of described travelling gear and first gear is connected.
Wherein, described eccentric shaft mechanism also includes the first interstage sleeve and gland;On described first eccentric shaft and the second eccentric shaft
It is arranged with lock sleeve respectively, described gland is set on eccentric bearing block, and described thrust ball bearing passes through lock sleeve and gland
First eccentric shaft and the second eccentric shaft are positioned on eccentric bearing block;Described first gear is set on deep groove ball bearing and locking
Between set, and all it is arranged with the second interstage sleeve on described first dead axle and the second dead axle.
Wherein, described linear bearing is arranged in linear bearing seat by circlip for hole.
Wherein, between described first gear and the first eccentric shaft, between second gear and the first eccentric shaft and the 3rd gear
All it is fixedly connected by flat key and round nut between gear fixed seat;Between described first connecting rod and the first eccentric shaft, described
All it is connected by needle bearing between first eccentric shaft and eccentric bearing block and between described second connecting rod and the first dead axle.
The beneficial effects of the utility model are:
Compared with prior art, the flat-press flat-die cutting machine with four-bar linkage structure of the present utility model, drive mechanism drives the
One pinion rotation, and then drive the first eccentric shaft rotation, second gear drives the 3rd gear rotation, drives four first connecting rods
Swing, and then the first dead axle realized in drivening rod mechanism does the change in location of horizontal direction, when the midpoint of the first dead axle is past
In move when so that four first connecting rods shorten in the distance of vertical direction;When linkage outward movment, four first even
The distance of bar vertical direction is elongated, thus promoting middle slide carriage to move up and down along the axis of guide;And drive mechanism is in paper
Top is so that the application point of four power of four first connecting rods is close proximity to working region, and the axis of guide is fixed, makes
Each highest and extreme lower position are fixing, improve the stability of cross cutting;When touching the bottom, i.e. combined pressure state,
Four first connecting rods become very little toward the decomposing force of the first eccentric shaft and the second eccentric shaft, improve d ie cutting press tonnage so that
The range of this die-cutting machine is wider.
Brief description
Fig. 1 is the structure chart with the flat-press flat-die cutting machine of four-bar linkage structure for this utility model;
Fig. 2 is the left view with the flat-press flat-die cutting machine of four-bar linkage structure for this utility model;
Fig. 3 is the sectional view of this utility model eccentric shaft mechanism;
Fig. 4 is the left view of this utility model linkage;
Fig. 5 is the partial sectional view of Fig. 4;
Fig. 6 is the half sectional view of this utility model middle slide carriage mechanism.
Main element symbol description is as follows:
10th, support 20, eccentric shaft mechanism
30th, linkage 40, middle slide carriage mechanism
50th, paper placement mechanism 60, drive mechanism
70th, round nut 80, needle bearing
100th, top board 101, side plate
102nd, cross cutting upper plate 103, cross cutting base plate
104th, pressure regulator 105, side plate fixed seat
106th, bottom pad plate 107, leveling backing plate
108th, frame bottom plate
200th, first gear 201, the first eccentric shaft
202nd, the second eccentric shaft 203, second gear
204th, the 3rd gear 205, first connecting rod
206th, thrust ball bearing 207, capacity eccentric bearing
208th, eccentric bearing block 209, gear fixed seat
210th, eccentric shaft fixed seat 211, the first interstage sleeve
212nd, lock sleeve 213, gland
300th, dead axle fixed seat 301, second connecting rod
302nd, the first dead axle 303, the second dead axle
304th, the second interstage sleeve
400th, middle slide carriage 401, the axis of guide
402nd, square block ball bearing 403, linear bearing
404th, linear bearing seat 405, axis of guide fixed seat
406th, oil pipe 407, oil filler point
600th, servomotor 601, power transmission shaft
602nd, travelling gear.
Specific embodiment
In order to more clearly state this utility model, below in conjunction with the accompanying drawings this utility model is further described.
Refering to Fig. 1-3, the flat-press flat-die cutting machine with double leval jib for this utility model, including the eccentric shaft being arranged on support 10
Mechanism 20, linkage 30, middle slide carriage mechanism 40, paper placement mechanism 50 and drive mechanism 60, eccentric shaft mechanism 20, connecting rod
Mechanism 30 and drive mechanism 60 are arranged at the top of paper placement mechanism 50;Eccentric shaft mechanism 20 include first gear 200,
One eccentric shaft 201, the second eccentric shaft 202, second gear 203 and the 3rd gear 204, first gear 200 and 203 points of second gear
It is not set in the two ends on the first eccentric shaft 201, the 3rd gear 204 is set in one end of the second eccentric shaft 202;Drive mechanism 60
With first gear 200 drive connection, the engagement of second gear 203 and the 3rd gear 204 is connected;The middle part of the first eccentric shaft 201 and
Two first connecting rods 205 are respectively fixed with the middle part of the second eccentric shaft 202;Middle slip mechanism is provided with middle slide carriage 400
With four axis of guides 401, four axis of guides 401 are respectively positioned at the both sides of paper placement mechanism 50, one end of the every axis of guide 401
It is fixedly connected with the top board 100 of support 10 respectively, and side plate 101 fixed seat of the other end of the every axis of guide 401 and support 10
It is fixedly connected;Four first connecting rods 205, linkage 30 and middle slide carriage 400 are connected successively, and four first connecting rods
205 drivening rods 30 drive middle slide carriage mechanism 40 to move up and down on four axis of guides 401 again.
Operation principle of the present utility model is:Drive mechanism 60 drives first gear 200 to rotate, on the first eccentric shaft 201
One end of two first connecting rods 205 is all swung in the same direction with the direction of rotation of first gear 200, two on the second eccentric shaft 202
The direction of rotation backswing all with first gear 200 for the one end of one connecting rod 205, when the first eccentric shaft 201 eccentric position and
All when outer rotation inward, drivening rod mechanism 30 moves the eccentric position of the second eccentric shaft 202 inward, and then drives middle sliding
Seat 400 moves up on the axis of guide 401;When the eccentric position of the first eccentric shaft 201 and the eccentric position of the second eccentric shaft 202
When all from inside outwards rotating, drivening rod mechanism 30 outward movment, and then drive middle slide carriage 400 to carry out on the axis of guide 401
Move down.
When drive mechanism 60 drives first gear 200 to turn clockwise, two first connecting rods on the first eccentric shaft 201
205 one end clockwise oscillation, one end counter-clockwise swing of two first connecting rods 205 on the second eccentric shaft 202;Work as driver
When structure 60 drives first gear 200 rotate counterclockwise, one end of two first connecting rods 205 on the first eccentric shaft 201 is counterclockwise
Swing, one end clockwise oscillation of two first connecting rods 205 on the second eccentric shaft 202;No matter first gear 200 is clockwise
Rotation or rotate counterclockwise, can make the eccentric position of the first eccentric shaft 201 and the second eccentric shaft 202 all from outer inward
Rotate, or the eccentric position of the first eccentric shaft 201 and the second eccentric shaft 202 from inside outwards rotates, realize driving middle slide carriage 400
The axis of guide 401 moves up and down.
Cross cutting upper plate 102, cross cutting base plate 103, pressure regulator 104, side plate fixed seat 105, bottom are additionally provided with support 10
Backing plate 106, leveling backing plate 107 and frame bottom plate 108, paper placement mechanism 50 is provided with paper rest area, and paper rest area
It is arranged between cross cutting upper plate 102 and cross cutting base plate 103, pressure regulator 104 is arranged under cross cutting base plate 103, and pressure is adjusted
Section device 104 is electrically connected with cross cutting upper plate 102 and cross cutting base plate 103 respectively, for adjusting cross cutting upper plate 102 and cross cutting base plate 103
Pressure;Side plate fixed seat 105 is used for fixed side 101;Bottom pad plate 106 is used for positioning pressure actuator 104, leveling backing plate
107 are used for supporting bottom pad plate 106 it is ensured that pressure regulator 104 is steady, and frame bottom plate 108 is used for supporting leveling backing plate 107.
Compared with prior art, the flat-press flat-die cutting machine with four-bar linkage structure of the present utility model, drive mechanism 60 drives
First gear 200 rotates, and then drives the first eccentric shaft 201 to rotate, and second gear 203 drives the 3rd gear 204 to rotate, and drives
The swing of four first connecting rods 205, and then the first dead axle 302 realized in drivening rod mechanism 30 does the position change of horizontal direction
Change, so that four first connecting rods 205 shorten in the distance of vertical direction when moving inward when the midpoint of the first dead axle 302;When even
During linkage 30 outward movment, the distance of four first connecting rod 205 vertical direction is elongated, thus promote middle slide carriage 400 along
The axis of guide 401 moves up and down;And drive mechanism 60 above paper so that the work of the four of four first connecting rods 205 power
With point close proximity to working region, and the axis of guide 401 is fixed so that each highest and extreme lower position are fixing
, improve the stability of cross cutting;When touching the bottom, i.e. combined pressure state, four first connecting rods 205 are toward the first eccentric shaft
201 and second the decomposing force of eccentric shaft 202 become very little, improve d ie cutting press tonnage so that the range of this die-cutting machine
Wider.
Refer to Fig. 3, eccentric shaft mechanism 20 also includes thrust ball bearing 206, deep groove ball bearing 207, eccentric bearing block
208th, gear fixed seat 209 and eccentric shaft fixed seat 210, the first eccentric shaft 201 is arranged on eccentric bearing block 208, and thrust
Ball bearing 206 is arranged on one end of the first eccentric shaft 201;One end of gear fixed seat 209 and the second eccentric shaft 202 is fixing even
Connect, and the inner ring of the 3rd gear 204 is set on the second eccentric shaft 202 by gear fixed seat 209;Eccentric bearing block 208 is solid
It is scheduled in eccentric shaft fixed seat 210, and eccentric shaft fixed seat 210 is fixed on the top board 100 of support 10.
Refer to Fig. 4-5, linkage 30 includes dead axle fixed seat 300,301, four first dead axle 302 and of second connecting rod
Two second dead axles 303, second connecting rod 301 is fixed therein one end of two first dead axles 302 of top, and the second of lower section is fixed
Axle 303 is fixed in dead axle fixed seat 300, and dead axle fixed seat 300 is fixed on middle slide carriage 400, top two first dead axle
302 one end is fixedly connected with eccentric shaft fixed seat 210 respectively, and the other end of middle two first dead axles 302 is respectively with four
Root first connecting rod 205 is connected.
Refer to Fig. 6, middle slide carriage mechanism 40 also includes square block ball bearing 402, linear bearing 403, linear bearing seat
404th, axis of guide fixed seat 405 and oil pipe 406, one end of the axis of guide 401 is fixed on support 10 by axis of guide fixed seat 405
In side plate fixed seat 105, the other end of the axis of guide 401 is fixed on the top board 100 of support 10 by square block ball bearing 402, directly
Bobbin holds 403 and is arranged in linear bearing seat 404, and linear bearing seat 404 is fixed on middle slide carriage 400, linear bearing 403
Endoporus is slided with the axis of guide 401 cooperation, and oil pipe 406 is connected on the axis of guide 401, is provided with oil filler point 407 in the axis of guide 401, and
Oil pipe 406 gives linear bearing 403 fuel feeding by oil filler point 407.
In the present embodiment, drive mechanism 60 includes servomotor 600, power transmission shaft 601 and travelling gear 602, servomotor
600 pass through power transmission shaft 601 and travelling gear 602 drive connection, and travelling gear 602 is connected with first gear 200 engagement.Transmission
Mechanism 60 imparts power to first gear 200.
In the present embodiment, eccentric shaft mechanism 20 also includes the first interstage sleeve 211 and gland 213;First eccentric shaft 201 and second
Eccentric shaft 202 is single to be arranged with lock sleeve 212 respectively, and gland 213 is set on eccentric bearing block 208, and thrust ball bearing 206 leads to
Cross lock sleeve 212 and gland 213 and first eccentric shaft 201 and the second eccentric shaft 202 are positioned at corresponding eccentric bearing block 208
On;First interstage sleeve 211 is arranged between deep groove ball bearing 207 and lock sleeve 212, and on the first dead axle 302 and the second dead axle 303
All it is arranged with the second interstage sleeve 304.
In the present embodiment, linear bearing 403 is arranged in linear bearing seat 404 by circlip for hole.Certainly, this case
In be not limited to mounting means or other mounting means of circlip for hole.
In the present embodiment, between first gear 200 and the first eccentric shaft 201, second gear 203 and the first eccentric shaft 201
Between and the 3rd gear 204 and gear fixed seat 209 between be all fixedly connected by flat key and round nut 70;First connecting rod 205
And the first eccentric shaft 201 between, between the first eccentric shaft 201 and eccentric bearing block 208 and second connecting rod 301 and the first dead axle
All it is connected by needle bearing 80 between 302.Flat key and round nut 70 make between part firmly, and needle bearing 80 supports rotation
Transfer to use.
Only several specific embodiments of the present utility model disclosed above, but this utility model is not limited to this,
The changes that any person skilled in the art can think of all should fall into protection domain of the present utility model.
Claims (8)
1. a kind of flat-press flat-die cutting machine with four-bar linkage structure it is characterised in that include be arranged on eccentric shaft mechanism on support,
Linkage, middle slide carriage mechanism, paper placement mechanism and drive mechanism, described eccentric shaft mechanism, linkage and driver
Structure is arranged at the top of paper placement mechanism;Described eccentric shaft mechanism includes first gear, the first eccentric shaft, the second bias
Axle, second gear and the 3rd gear, described first gear and second gear are respectively sleeved at the two ends on the first eccentric shaft, described
3rd gear is set in one end of the second eccentric shaft;Described drive mechanism and first gear drive connection, described second gear with
3rd gear engagement connects;It is respectively fixed with two first even on the middle part of the middle part of described first eccentric shaft and the second eccentric shaft
Bar;Described middle slip mechanism is provided with middle slide carriage and four axis of guides, and four axis of guides are located at paper placement mechanism respectively
Both sides, one end of the every axis of guide is fixedly connected with the top board of support respectively, and the other end of the every axis of guide and support
Side plate fixed seat is fixedly connected;Four first connecting rods, linkage and middle slide carriage are connected successively, and four first connecting rods
Drivening rod mechanism drives middle slide carriage mechanism to move up and down on four axis of guides again.
2. the flat-press flat-die cutting machine with four-bar linkage structure according to claim 1 is it is characterised in that described eccentric shaft mechanism
Also include thrust ball bearing, deep groove ball bearing, eccentric bearing block, gear fixed seat and eccentric shaft fixed seat, described first is eccentric
Axle is arranged on eccentric bearing block, and described thrust ball bearing is arranged on one end of the first eccentric shaft;Described gear fixed seat with
One end of second eccentric shaft is fixedly connected, and the inner ring of described 3rd gear is located at the second eccentric shaft by gear fixed seating
On;Described eccentric bearing block is fixed in eccentric shaft fixed seat, and described eccentric shaft fixed seat is fixed on the top board of support.
3. the flat-press flat-die cutting machine with four-bar linkage structure according to claim 2 is it is characterised in that described linkage bag
Include dead axle fixed seat, second connecting rod, four first dead axles and two second dead axles, described second connecting rod is fixed therein top two
One end of root first dead axle, in addition lower section two second dead axles be fixed in dead axle fixed seat, described dead axle fixed seat is fixed on
On middle slide carriage, top two first dead axle is fixedly connected with eccentric shaft fixed seat respectively, middle two first dead axles another
End is connected with four first connecting rods respectively.
4. the flat-press flat-die cutting machine with four-bar linkage structure according to claim 3 is it is characterised in that described middle slide carriage machine
Structure also includes square block ball bearing, linear bearing, linear bearing seat, axis of guide fixed seat and oil pipe, and one end of the described axis of guide leads to
Cross axis of guide fixed seat to be fixed on the top board of support, the other end of the described axis of guide is fixed on support by square block ball bearing
In side plate fixed seat, described linear bearing is arranged in linear bearing seat, and described linear bearing seat is fixed on middle slide carriage, institute
State the endoporus of linear bearing and axis of guide cooperation is slided, described oil pipe is connected on the axis of guide, is provided with oiling in the described axis of guide
Hole, and described oil pipe passes through oil filler point to linear bearing fuel feeding.
5. the flat-press flat-die cutting machine with four-bar linkage structure according to claim 1 is it is characterised in that described drive mechanism bag
Include servomotor, power transmission shaft and travelling gear, described servomotor passes through power transmission shaft and travelling gear drive connection, and described biography
Moving gear is connected with first gear engagement.
6. the flat-press flat-die cutting machine with four-bar linkage structure according to claim 3 is it is characterised in that described eccentric shaft mechanism
Also include the first interstage sleeve and gland;It is arranged with lock sleeve respectively, described gland set on described first eccentric shaft and the second eccentric shaft
It is located on eccentric bearing block, and described thrust ball bearing passes through lock sleeve and gland and positions the first eccentric shaft and the second eccentric shaft
On eccentric bearing block;Described first gear is set between deep groove ball bearing and lock sleeve, and described first dead axle and second
Second interstage sleeve is all arranged with dead axle.
7. the flat-press flat-die cutting machine with four-bar linkage structure according to claim 4 is it is characterised in that described linear bearing leads to
Cross circlip for hole to be arranged in linear bearing seat.
8. the flat-press flat-die cutting machine with four-bar linkage structure according to claim 3 it is characterised in that described first gear with
Between first eccentric shaft, between second gear and the first eccentric shaft and between the 3rd gear and gear fixed seat all by flat key and
Round nut is fixedly connected;Between described first connecting rod and the first eccentric shaft, between described first eccentric shaft and eccentric bearing block and
All it is connected by needle bearing between described second connecting rod and the first dead axle.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620790825.2U CN205928889U (en) | 2016-07-26 | 2016-07-26 | Take four bar mechanism's concora crush flat -die cutter |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620790825.2U CN205928889U (en) | 2016-07-26 | 2016-07-26 | Take four bar mechanism's concora crush flat -die cutter |
Publications (1)
Publication Number | Publication Date |
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CN205928889U true CN205928889U (en) | 2017-02-08 |
Family
ID=57927141
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201620790825.2U Withdrawn - After Issue CN205928889U (en) | 2016-07-26 | 2016-07-26 | Take four bar mechanism's concora crush flat -die cutter |
Country Status (1)
Country | Link |
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CN (1) | CN205928889U (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106217485A (en) * | 2016-07-26 | 2016-12-14 | 深圳市瑞邦精密机械有限公司 | Flat-press flat-die cutting machine with four-bar linkage structure and control method thereof |
CN107824859A (en) * | 2017-09-08 | 2018-03-23 | 广东拓荒牛智能切割科技股份有限公司 | A kind of head cutting knife swing arm linkage |
CN110126022A (en) * | 2019-06-04 | 2019-08-16 | 北京黎马敦太平洋包装有限公司 | A kind of novel mechanical driven type high-precision die-cutting device |
-
2016
- 2016-07-26 CN CN201620790825.2U patent/CN205928889U/en not_active Withdrawn - After Issue
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106217485A (en) * | 2016-07-26 | 2016-12-14 | 深圳市瑞邦精密机械有限公司 | Flat-press flat-die cutting machine with four-bar linkage structure and control method thereof |
CN107824859A (en) * | 2017-09-08 | 2018-03-23 | 广东拓荒牛智能切割科技股份有限公司 | A kind of head cutting knife swing arm linkage |
CN110126022A (en) * | 2019-06-04 | 2019-08-16 | 北京黎马敦太平洋包装有限公司 | A kind of novel mechanical driven type high-precision die-cutting device |
CN110126022B (en) * | 2019-06-04 | 2021-01-19 | 北京黎马敦太平洋包装有限公司 | Novel mechanical transmission type high-precision die cutting equipment |
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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 | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20170208 Effective date of abandoning: 20180706 |