CN209305019U - Badge lock seaming machine - Google Patents
Badge lock seaming machine Download PDFInfo
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- CN209305019U CN209305019U CN201822077668.2U CN201822077668U CN209305019U CN 209305019 U CN209305019 U CN 209305019U CN 201822077668 U CN201822077668 U CN 201822077668U CN 209305019 U CN209305019 U CN 209305019U
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- inner casing
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- mold
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Abstract
The utility model provides a kind of badge lock seaming machine, including upper mold, lower mold and rack, rack for driving upper mold, close downward by die presses down, upper mold includes the first shell, the first mold core and the first inner casing, first shell is set to the top of rack, first mold core is set to the inside of the first shell, first inner casing is in be movably disposed between the first shell and the first mold core, first mold core and the first inner casing are enclosed equipped with a downward opening accommodating cavity, and the first dislocation blocking mechanism is equipped between the first shell and the first inner casing;Lower mold includes second housing, the second mold core, the second inner casing and bevel edge, second housing is set to the lower part of rack, second mold core is set to the inside of second housing, second inner casing is in be movably disposed between second housing and the second mold core, bevel edge is tilted down along the second inner casing circumferentially and towards the inside of the second inner casing, and the second dislocation blocking mechanism is equipped between second housing and the second inner casing.
Description
Technical field
The utility model relates to part riveting technology field more particularly to a kind of badge lock seaming machines.
Background technique
Badge riveted generally comprises following steps: the first step is successively put into cover, ticker tape and transparent film from the bottom up;
Second step, ticker tape and transparent film flanging;Cover, ticker tape and transparent film three are lowered into bottom cover by third step;4th
Portion, ticker tape and transparent film crimp again when moving down;5th step, ticker tape and transparent film indentation bottom cover after, cover side to
Infolding and the bottom cover that links closely;6th step completes the riveted of badge.
Existing badge lock seaming machine generally comprises rack, a upper mold and two lower molds, upper mold and is mounted on rack
Top, two lower molds are separately mounted to the lower part of rack, complete emblem first with one of them lower mold and upper mold cooperation
The first step and second step in chapter staking step, then reconvert passes through another lower mold and upper mold at another lower mold
Tool cooperation completes remainder four in badge staking step.Since existing badge lock seaming machine needs two lower mold conversions to match
Unify a upper mold to use, the riveted of badge could be completed, there is a problem of troublesome in poeration, at high cost.
Utility model content
The purpose of this utility model is to provide a kind of badge lock seaming machines easy to operate, at low cost.
To achieve the above object, the utility model provides a kind of badge lock seaming machine, including upper mold, lower mold and machine
Frame, for the rack for driving the upper mold to close towards the lower die presses down, the upper mold includes the first shell, first
Mold core and the first inner casing, first shell are set to the top of the rack, and first mold core is set to outside described first
The inside of shell, first inner casing are in be movably disposed between first shell and first mold core, and described first
Mold core and first inner casing are enclosed equipped with a downward opening accommodating cavity, are equipped between first shell and first inner casing
First dislocation blocking mechanism, is rotated by first inner casing relative to first shell, so that the first dislocation blocking machine
Structure contraposition or dislocation, to carry out locking or release the lock with respect to moving up and down for the first shell to first inner casing;The lower mold
Including second housing, the second mold core, the second inner casing and bevel edge, the second housing is set to the lower part of the rack, and described
Two mold cores are set to the inside of the second housing, second inner casing in be movably disposed in the second housing with it is described
Between second mold core, the bevel edge is tilted down along second inner casing circumferentially and towards the inside of second inner casing,
It is equipped with the second dislocation blocking mechanism between the second housing and second inner casing, passes through second inner casing relatively described the
The rotation of two shells, so that the second dislocation blocking mechanism contraposition or dislocation, outside to second inner casing relatively described second
Moving up and down for shell carries out locking or release the lock.
Preferably, the first dislocation blocking mechanism includes block piece and the first lower block piece on first, on described first
Block piece is fixed on the inside of first shell, and the described first lower block piece is fixed on the outside of second inner casing, described
First inner casing is rotated relative to first shell, and block piece and described first on described first can be made to descend block piece in upper and lower
Contraposition or dislocation upwards.
Preferably, the second dislocation blocking mechanism includes block piece and the second lower block piece on second, on described second
Block piece is fixed on the outside of second inner casing, and the described second lower block piece is fixed on the inside of the second housing, described
First inner casing is rotated relative to first shell, and block piece and described second on described second can be made to descend block piece in upper and lower
Contraposition or dislocation upwards.
Preferably, the upper mold further includes the first elastic component, first elastic component is along first inner casing with respect to institute
The direction that the first shell moves up and down is stated to be set between first inner casing and first shell.
Preferably, the lower mold further includes the second elastic component, second elastic component is along second inner casing with respect to institute
The direction that second housing moves up and down is stated to be set between second inner casing and the second housing.
Preferably, the outside of first inner casing is equipped with the first protrusion, the outside of the second housing is equipped with the second protrusion,
It is rotated by the second housing relative to second inner casing, the first protrusion described in the second raised pushing tow can be made to drive the first inner casing
It is rotated relative to first shell.
Preferably, the second housing is articulated in the bottom of the rack, it is convex that the outside of second inner casing is equipped with third
It rises, the third protrusion is resisted against in the rack.
Preferably, first shell is in the top for being removably installed in the rack.
Preferably, first mold core is in be removably installed on first shell.
Preferably, second mold core is in be removably installed on the second housing.
Compared with prior art, the badge lock seaming machine of the utility model can be first passed through when carrying out badge riveted by first
Misplace blocking mechanism contraposition, to lock to the first inner casing with respect to moving up and down for the first shell, is hindered by the second dislocation
Retaining device dislocation, to move up and down carry out release the lock with respect to second housing to the second inner casing;Then by cover, ticker tape and thoroughly
Gelatin foil is successively placed on the second mold core, and driving upper mold by rack, mold moves down pressing downward, so that the second inner casing
It is moved down by the first inner casing pushing tow, so that the second mold core heads into cover, ticker tape and transparent film in accommodating cavity, and
Ticker tape and transparent film can bendings during being headed into;Then, by rotating the first inner casing relative to the first shell, so that
First dislocation blocking mechanism dislocation makes the second inner casing to move up and down carry out release the lock with respect to the first shell to the first inner casing
It is rotated relative to second housing, so that the second dislocation blocking mechanism contraposition, thus the upper and lower shifting to the second inner casing with respect to second housing
It is dynamic to be locked, then bottom cover is put on the second mold core again, again by rack driving upper mold, mold moves down pressing downward,
So that the first inner casing is moved up by the second inner casing pushing tow so that cover, ticker tape and transparent film by upper mold core pushing tow extremely
In the bottom cover of lower mold core, in the process, the bending edges and cover of transparent film can by withstanding for bevel edge inward curl, most
Rear cover cabinet joint, ticker tape and transparent film three buckle into bottom cover, so that the riveted of badge is completed, therefore the badge lock seaming machine of the utility model
Only need a lower die that the work of existing two lower dies can be completed, it is easy to operate without converting lower mold, it reduces costs.
Detailed description of the invention
Fig. 1 is the front view of the badge lock seaming machine of the utility model.
Fig. 2 is the partial sectional view of badge lock seaming machine shown in FIG. 1.
Fig. 3 is the schematic perspective view of the badge lock seaming machine of the utility model.
Fig. 4 is the schematic perspective view of the rack of the badge lock seaming machine of the utility model.
Fig. 5 is the structure of first connecting rod, gear and second connecting rod the three engagement of the badge lock seaming machine of the utility model
Schematic diagram.
Specific embodiment
In order to which the technology contents, construction feature of the utility model is described in detail, below in conjunction with embodiment and cooperate attached drawing
It is described further.
Fig. 1 and Fig. 2 is please referred to, the badge lock seaming machine 100 of the utility model includes upper mold 1, lower mold 2 and rack 3, machine
For driving upper mold 1, mold 2 presses downwards frame 3 downward.Upper mold 1 is including in the first shell 11, the first mold core 12 and first
Shell 13, the first shell 11 are set to the top of rack 3, and the first mold core 12 is set to the inside of the first shell 11, the first inner casing 13
In being movably disposed between the first shell 11 and the first mold core 12, the first mold core 12 and the first inner casing 13 are enclosed equipped with an opening
Accommodating cavity 14 directed downwardly is equipped with the first dislocation blocking mechanism 15, passes through the first inner casing between first shell 11 and the first inner casing 13
13 rotate relative to the first shell 11, so that the first dislocation blocking mechanism 15 contraposition or dislocation, to the first inner casing 13 opposite first
Moving up and down for shell 11 carries out locking or release the lock.Lower mold 2 include second housing 21, the second mold core 22, the second inner casing 23 and
Bevel edge 24, second housing 21 are set to the lower part of rack 3, and the second mold core 22 is set in the inside of second housing 21, second
Shell 23 in being movably disposed between second housing 21 and the second mold core 22, bevel edge 24 along the second inner casing 23 circumferentially simultaneously
It is tilted down towards the inside of the second inner casing 23, the second dislocation blocking mechanism 25 is equipped between second housing 21 and the second inner casing 23,
It is rotated by the second inner casing 23 relative to second housing 21, so that the second dislocation blocking mechanism 25 contraposition or dislocation, in second
Shell 23 carries out locking or release the lock with respect to moving up and down for second housing 21.To improve convenient for riveted badge of different specifications and sizes
This implements the applicability of novel badge lock seaming machine 100, and in the present embodiment, the first mold core 12 is in be removably installed in first
On shell 11, the second mold core 22 is in be removably installed on second housing 21;Needing riveted badge of different specifications and sizes
When, the first mold core 12 and the second mold core 22 need to only be disassembled to and be replaced the first mold core 12 and the second mold core of another specification
22, riveted badge of different specifications and sizes can be realized.The detachable mounting means and of first mold core 12 and the first shell 11
The detachable mounting means of two mold cores 22 and second housing 21 can be used it is in the prior art be connected together, the side such as screw connection
Formula.It is more specifically as follows:
Referring to Fig. 2, in the present embodiment, the first dislocation blocking mechanism 15 includes on first under block piece 151 and first
Block piece 152, block piece 151 is fixed on the inside of the first shell 11 on first, and the first lower block piece 152 is fixed on the second inner casing
23 outside, the first inner casing 13 are rotated relative to the first shell 11, and block piece 151 and the first lower block piece 152 on first can be made to exist
Upper and lower is aligned or is misplaced upwards.Second dislocation blocking mechanism 25 includes block piece 251 and the second lower block piece 252 on second,
Block piece 251 is fixed on the outside of the second inner casing 23 on second, and the second lower block piece 252 is fixed on the inside of second housing 21,
First inner casing 13 is rotated relative to the first shell 11, and block piece 251 and second on second can be made to descend block piece 252 in upper and lower direction
Upper contraposition or dislocation.
Please continue to refer to Fig. 2, upper mold 1 further includes the first elastic component 16, and the first elastic component 16 is opposite along the first inner casing 13
The direction that first shell 11 moves up and down is set between the first inner casing 13 and the first shell 11.First elastic component 16 is set
Purpose is: after sliding on 23 the first inner casing of pushing tow 13 of the second inner casing, the first inner casing 13 can be in the elastic extensive of the first elastic component 16
Multiple power effect is lower to be resetted.Lower mold 2 further includes the second elastic component 26, and the second elastic component 26 is along the opposite second housing of the second inner casing 23
21 directions moved up and down are set between the second inner casing 23 and second housing 21.The purpose that the second elastic component 26 is arranged is: one
Aspect when the opposite second housing 21 of the second inner casing 23 moves up and down and the first inner casing 13 also non-the second inner casing of pushing tow 23 glides,
Second elastic component 26 can play a supportive role to the second inner casing 23;On the other hand it glides in 13 the second inner casing of pushing tow 23 of the first inner casing
Afterwards, the second inner casing 23 can reset under the effect of the elastic restoring force of the second elastic component 26.In the present embodiment, the first elastic component 16
Compressed spring can be used with the second elastic component 26, but not limited to this.
Please continue to refer to Fig. 3, the outside of the first inner casing 13 is equipped with the first protrusion 131, and the outside of second housing 21 is equipped with the
Two protrusions 211 are rotated by second housing 21 relative to the second inner casing 23, and 211 the first protrusion of pushing tow 131 of the second protrusion can be made to drive
First inner casing 13 is rotated relative to the first shell 11.It is preferred that second housing 21 is articulated in the bottom of rack 3, the second inner casing 23
Outside be equipped with third protrusion 231, third protrusion 231 is resisted against in rack 3.When pushing second housing 21 to rotate, outside second
Second protrusion 211 of shell 21 can the first protrusion of pushing tow 131, so as to drive the first inner casing 13 to rotate relative to the first shell 11, from
And the first dislocation blocking mechanism 15 can be made to align, to be locked to opposite first the moving up and down for shell 11 of the first inner casing 13;
Second housing 21 can also drive the second inner casing 23 to rotate simultaneously, but since the third protrusion 231 of the second inner casing 23 is kept out by rack 3
Firmly, so that second housing 21 misplaces with the second inner casing 23, that is, so that the second dislocation blocking mechanism 25 misplaces, with right
The opposite second housing 21 of second inner casing 23 moves up and down carry out release the lock.It therefore, only need to be by rotating second housing 21
It realizes the first dislocation blocking mechanism 15 from the switching aligned between dislocation two states, while the second dislocation can also be stopped
Mechanism 25 greatlys improve the convenience of operation from the switching aligned between dislocation two states, realizes fluid drive position
Effect.Certainly, it for the gear preferably more intuitively clearly adjusted, can be set in the outside of the first inner casing 13 and the first shell 11
Gear index line, such as 1 gear, 2 gears are set, but position is set and is not limited, may also be arranged on second housing 21 and the second inner casing
23 outside.
4 and Fig. 5 is please referred to, the rack 3 of the utility model includes frame body 31, first connecting rod 32, operating parts 33, second
Connecting rod 34 and pressing member 35, the first end of first connecting rod 32 are articulated in frame body 31, the second end of first connecting rod 32 and behaviour
The first end of workpiece 33 is pivotally connected, and the second end of operating parts 33 and the first end of second connecting rod 34 are pivotally connected, and the second of second connecting rod 34
End is pivotally connected with pressing member 35, and pressing member 35 is in that can be slidingly arranged above and below in frame body 31.In the present embodiment, rack
Ontology 31 includes pedestal 311, guide rod 312 and fixed link 313, and one end of guide rod 312 is fixed on pedestal 311, guide rod
312 other end is fixedly connected with fixed link 313, and the first end of first connecting rod 32 is articulated in fixed link 313, and pressing member 35 is in
It is slideably sheathed on guide rod 312.Wherein, guide rod 312 plays guiding sliding, guide rod 312 to pressing member 35
If there are two and be distributed in the two sides of frame body 31, the both ends of pressing member 35 are sheathed on respectively on guide rod 312.In attached drawing
In, the drive-connecting shaft between first connecting rod 32 and fixed link 313 is first axle Z1, the pivot joint between first connecting rod 32 and operating parts 33
Axis is the second axis Z2, and the drive-connecting shaft between operating parts 33 and second connecting rod 34 is Z3, between second connecting rod 34 and pressing member 35
Drive-connecting shaft is Z4, and when applying driving force so that operating parts 33 rotates to operating parts 33, first connects under the action of the driving force
Bar 32 and second connecting rod 34 can be rotated towards the intermediate direction of the two, wherein and first connecting rod 32 is rotated counterclockwise around first axle Z1, the
Two connecting rods 34 are rotated around third axis Z3, and second connecting rod 34 can move down while rotation, in first connecting rod 32, operating parts
33 and second connecting rod 34 interlink function under, pressing member 35 can along 312 slide downward of guide rod push.Drive pressing member 35 upward
It is also same principle that sliding, which resets, therefore not burdensome herein.To avoid operating parts 33 from interfering in rotation with frame body 31,
Operating parts 33 is equipped with the escape groove 331 that frame body 31 is avoided when rotating for operating parts 33.The escape groove 331 is set to operation
The corresponding position that part 33 and first connecting rod 32, second connecting rod 34 are pivotally connected.
Please continue to refer to 4 and Fig. 5, in the present embodiment, the rack 3 of the utility model further includes gear 36,36 pivot of gear
It is connected to the middle part of operating parts 33, the second end of first connecting rod 32 is engaged with gear 36, the first end and gear 36 of second connecting rod 34
Engagement.Specifically, the second end of first connecting rod 32 is equipped with multiple the first teeth portion 321 for engaging with gear 36, second connecting rod
34 first end is equipped with multiple the second teeth portion 341 for engaging with gear 36.By the way that first connecting rod 32 is engaged with gear 36
And engage second connecting rod 34 with gear 36, so that the band moving gear 36 in rotation of first connecting rod 32 rotates, gear 36 is rotated
Second connecting rod 34 is driven to rotate again, alternatively, band moving gear 36 rotates when second connecting rod 34 rotates, the rotation of gear 36 drives the again
One connecting rod 32 rotation, to can save and be applied to operating parts 33 when driving operating parts 33 to rotate so that the sliding of pressing member 35 pushes
The power added.
Please refer to Fig. 1 and Fig. 4, the first shell 11 is in the top for being removably installed in rack 3, so that upper mold 1 can be from
It is disassembled in rack 3, specifically, the first shell 11 is in be removably installed on pressing member 35, the first shell 11 and rack 3
Detachable connection method can be used it is in the prior art be connected together, the modes such as screw connection;One end pivot of second housing 21
It is connected on guide rod 312.Upper mold 1 is disassembled, installs on the badge lock seaming machine 100 of the utility model and matches accordingly
Part can be realized and carry out cutting circle to paper, clip pad is such as successively put on lower mold 2, to paper-cut and clip, grasped by rotation
Workpiece 33 makes pressing member 35 push clip, carries out cutting circle so as to treat paper-cut;Second housing 21 is driven to be oppositely oriented bar
312 rotations, make lower mold 2 from the position of corresponding upper mold 1 produce to from the position of 1 non-corresponding of upper mold, then by upper mold 1
It disassembles, consequently facilitating making the rack 3 that there is other function using the rack 3 of the utility model, being such as applied to as punched
Machine is justified in device, round-corner cutter etc. plant machinery equipment for cutting out circular sanction.
In conjunction with Fig. 1 to Fig. 3, the specific working principle is as follows for the badge lock seaming machine 100 of the utility model:
Before badge riveted, the first dislocation blocking mechanism 15 is alignment, prevent the first inner casing 13 is from opposite first
Shell 11 slides above and below, and the second dislocation blocking mechanism 25 is misaligned state, enables the second inner casing 23 second housing 21 relatively
Upper and lower sliding;In badge riveted, cover, ticker tape and transparent film are successively placed on the second mold core 22, lead to over-drive operation
Part 33 pushes pressing member 35, and to drive upper mold 1, mold 2 moves down pressing downward, so that the second inner casing 23 is by the first inner casing 13
Pushing tow moves down so that the second mold core 22 heads into cover, ticker tape and transparent film in accommodating cavity 14, and ticker tape and
Transparent film can bending during being headed into;When second housing 21 being pushed to rotate, the second protrusion 211 of second housing 21 can
The first protrusion of pushing tow 131, so as to drive the first inner casing 13 to rotate relative to the first shell 11, so as to make the first dislocation stop machine
Structure 15 aligns, to lock to opposite first the moving up and down for shell 11 of the first inner casing 13;Second housing 21 can also band simultaneously
Dynamic second inner casing 23 rotation, but since the third protrusion 231 of the second inner casing 23 is withstood by rack 3, so that second housing
21 misplace with the second inner casing 23, that is, so that the second dislocation blocking mechanism 25 misplaces, outside to the second inner casing 23 opposite second
Shell 21 moves up and down carry out release the lock;Then bottom cover is placed on the second mold core 22, rotation operating parts 33 makes upper mold 1 again
Secondary mold downward 2 moves down pressing, so that the first inner casing 13 is moved up by 23 pushing tow of the second inner casing, so that cover,
Ticker tape and transparent film are by the bottom cover of upper mold core pushing tow to lower mold core, in the process, the bending edges of transparent film and face
Lid can withstanding and inward curl by bevel edge 24, last cover, ticker tape and transparent film three buckle into bottom cover, to complete badge
Riveted.
To sum up, the work of existing two lower dies can be completed in the need one of the badge lock seaming machine of the utility model 100 lower die
Make, it is easy to operate without converting lower mold 2, it reduces costs.
Above disclosed is only the preferred embodiments of the utility model, and the power of the utility model cannot be limited with this
Sharp range, therefore equivalent variations made according to the claim of the utility model belong to the range that the utility model is covered.
Claims (10)
1. a kind of badge lock seaming machine, including upper mold, lower mold and rack, the rack is for driving the upper mold towards described
Lower die presses down is closed, it is characterised in that:
The upper mold includes the first shell, the first mold core and the first inner casing, and first shell is set to the upper of the rack
Portion, first mold core are set to the inside of first shell, and first inner casing is in be movably disposed in described first
Between shell and first mold core, first mold core and first inner casing are enclosed equipped with a downward opening accommodating cavity, institute
It states and is equipped with the first dislocation blocking mechanism between the first shell and first inner casing, pass through first inner casing relatively described first
Shell rotation so that it is described first dislocation blocking mechanism contraposition or dislocation, with to first inner casing with respect to the first shell it is upper,
Lower movement carries out locking or release the lock;
The lower mold includes second housing, the second mold core, the second inner casing and bevel edge, and the second housing is set to the rack
Lower part, second mold core is set to the inside of the second housing, and second inner casing is described in being movably disposed in
Between second housing and second mold core, the bevel edge is along second inner casing circumferentially and towards second inner casing
Inside tilts down, and the second dislocation blocking mechanism is equipped between the second housing and second inner casing, passes through described second
Inner casing is rotated relative to the second housing, so that the second dislocation blocking mechanism contraposition or dislocation, to second inner casing
Moving up and down for the relatively described second housing carries out locking or release the lock.
2. badge lock seaming machine according to claim 1, which is characterized in that the first dislocation blocking mechanism includes on first
Block piece and first descends block piece, and block piece is fixed on the inside of first shell, the described first lower blocking on described first
Part is fixed on the outside of second inner casing, and first inner casing is rotated relative to first shell, can make to hinder on described first
Block piece is aligned or is misplaced upwards in upper and lower under block piece and described first.
3. badge lock seaming machine according to claim 1, which is characterized in that the second dislocation blocking mechanism includes on second
Block piece and second descends block piece, and block piece is fixed on the outside of second inner casing, the described second lower blocking on described second
Part is fixed on the inside of the second housing, and first inner casing is rotated relative to first shell, can make to hinder on described second
Block piece is aligned or is misplaced upwards in upper and lower under block piece and described second.
4. badge lock seaming machine according to claim 1, which is characterized in that the upper mold further includes the first elastic component, institute
State the first elastic component along the direction that relatively described first shell of first inner casing moves up and down be set to first inner casing with
Between first shell.
5. badge lock seaming machine according to claim 1, which is characterized in that the lower mold further includes the second elastic component, institute
State the second elastic component along the direction that the relatively described second housing of second inner casing moves up and down be set to second inner casing with
Between the second housing.
6. badge lock seaming machine according to claim 1, which is characterized in that it is convex that the outside of first inner casing is equipped with first
It rises, the outside of the second housing is equipped with the second protrusion, is rotated by the second housing relative to second inner casing, can make the
First protrusion described in two raised pushing tows drives the first inner casing to rotate relative to first shell.
7. badge lock seaming machine according to claim 6, which is characterized in that the second housing is articulated in the bottom of the rack
The outside in portion, second inner casing is equipped with third protrusion, and the third protrusion is resisted against in the rack.
8. badge lock seaming machine according to claim 1, which is characterized in that first shell is in be removably installed in institute
State the top of rack.
9. badge lock seaming machine according to claim 1, which is characterized in that first mold core is in be removably installed in institute
It states on the first shell.
10. badge lock seaming machine according to claim 1, which is characterized in that second mold core is in be removably installed in
On the second housing.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201822077668.2U CN209305019U (en) | 2018-12-10 | 2018-12-10 | Badge lock seaming machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201822077668.2U CN209305019U (en) | 2018-12-10 | 2018-12-10 | Badge lock seaming machine |
Publications (1)
Publication Number | Publication Date |
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CN209305019U true CN209305019U (en) | 2019-08-27 |
Family
ID=67676629
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201822077668.2U Active CN209305019U (en) | 2018-12-10 | 2018-12-10 | Badge lock seaming machine |
Country Status (1)
Country | Link |
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CN (1) | CN209305019U (en) |
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2018
- 2018-12-10 CN CN201822077668.2U patent/CN209305019U/en active Active
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