CN206277787U - A kind of rotary-type full-automatic cold wave machine - Google Patents
A kind of rotary-type full-automatic cold wave machine Download PDFInfo
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- CN206277787U CN206277787U CN201621342415.8U CN201621342415U CN206277787U CN 206277787 U CN206277787 U CN 206277787U CN 201621342415 U CN201621342415 U CN 201621342415U CN 206277787 U CN206277787 U CN 206277787U
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- thermoprint
- prime
- rear class
- conveyer belt
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Abstract
The utility model is related to surface special printing equipment technical field, especially a kind of rotary-type full-automatic cold wave machine.It includes Rack Body, seal box, infrared preheating device, vacuum suction mechanism and the main conveyer mechanism being made up of prime thermoprint conveyer belt and rear class thermoprint conveyer belt and is located at solidification device, aluminium foil piece installing device, aluminium foil recover, India and China's solidification device, print solidify afterwards device, the cold wave rubber roll mechanism being made up of runner master rotor and two thermoprint dandy rolls before the print in seal box respectively.Thermoprint part of the present utility model employs the structure type that+two thermoprint dandy rolls of a runner master rotor are engaged, and electrochemical aluminum foil and stock can be carried out into both sides pressing transfer process;Using three solidification devices before print, after India and China and print, three phases carry out different degrees of curing process to the glue on stock simultaneously, can effectively ensure that the integrality and hot stamping effects of hot stamping pattern;Its is simple and compact for structure, can ensure to hit the effect of the thermoprint operations such as convex thermoprint, embossment cold wave and the radium-shine transfer of embossment.
Description
Technical field
The utility model is related to surface special printing equipment technical field, especially a kind of rotary-type full-automatic cold wave machine.
Background technology
It is well known that cold wave printing technology is an important breakthrough in existing printing technology, it combines traditional print
Brush technology and coating technique, not only increased the variability of printed design, and can produce with cold wave gold and hit it is convex once
Property the product of perfect effect that completes, be widely used in packing box, exquisite poster wall calendar, antifalsification label, various marketable securities etc.
The making of product, because it can not only reduce production cost, improve production efficiency, it is also possible to create the extra price of product again
Value, thus it is increasingly becoming new development trend in printing technology.
However, traditional cold wave printing technology by the structure of cold foil printing equipment and Functional Design that are used by it not
The limitation of the factor such as reasonable, causes the following problem of its generally existing:
1. in thermoprint, because cure lamp cannot irradiate the region that stock fits with electrochemical aluminum foil, this region is caused
Interior glue, so that electrochemical aluminum foil intactly cannot be transferred on stock, cannot cause hot stamping pattern by full cure
Imperfect, effect is poor.
2. after printing equipment works long hours, the caloric value of the part such as cure lamp, cold wave rubber roll in equipment can progressively rise
Height, conducting-heat elements heating is abnormal, and thus produced hot environment can then influence the printing effect of stock, also can when serious
Influence equipment normal work in itself.
3. under normal circumstances, often there are multiple printed patterns in a product, and traditional printing equipment is due to electrification
The piece installing lazy weight of aluminium foil, and the requirement of printed patterns quantity cannot be met.
4. stock or shaping printed matter conveying when easily be subject to outside distinguished and admirable or external force influenceed and produce fine motion or
The phenomenons such as position skew, causing partial pattern printing imperfect or be followed by equipment cannot normally rewinding.
5. equipment monomer structure is excessively complicated, flexibility is poor, it is big to take up room, convenience that is using and safeguard is poor, nothing
Method is adjusted according to the specific environment in workshop or production needs, and cannot constitute life with the other equipment in cold wave technology
Streamline is produced, in turn resulting in stock cannot disposably print shaping, increased the operation of printing and the manufacturing cost of stock,
Reduce production efficiency.
Utility model content
For the deficiency that above-mentioned prior art is present, the purpose of this utility model is to provide a kind of rotary-type Full-automatic cold
Scald machine.
To achieve these goals, the utility model is adopted the following technical scheme that:
A kind of rotary-type full-automatic cold wave machine, it includes:
Rack Body, is equiped with the electric controlling assembly for playing core control action on the Rack Body;
Seal box, the seal box is installed on Rack Body, and fresh wind port and exhaust outlet are offered on the seal box;
For the conveyer mechanism of delivering printing, the conveyer mechanism is installed on Rack Body and passes through in left-right direction
Wear seal box distribution;
For being preheated to stock and the glue on stock is set to carry out the infrared preheating device of levelling treatment, it is described red
Outer preheater is installed in the top of the feed end of conveyer mechanism along the longitudinal direction;
For solidification device before the print that semi-solid preparation treatment is carried out to the glue on stock, solidification device is along front and back before the print
To the top for being installed in conveyer mechanism and positioned at the exit side of infrared preheating device;
It is described for depositing multiple electrochemical aluminum foil material volumes and electrochemical aluminum foil being carried out into the aluminium foil piece installing device that guiding discharging is processed
Aluminium foil piece installing device is installed in the top of conveyer mechanism and is located at the exit side of solidification device before print along the longitudinal direction;
Aluminium foil piece installing device for multiple different electrochemical aluminum foil groups guide discharging, the aluminium foil piece installing device is along preceding
Rear direction is installed in the top of conveyer mechanism and is located at the exit side of solidification device before print;
For the cold wave rubber roll mechanism being transferred to the electrochemical aluminum foil for being guided by aluminium foil piece installing device and being gone out on stock;
For being drawn to the electrochemical aluminum foil exported by aluminium foil piece installing device and the useless film of electrochemical aluminum foil is reclaimed
Aluminium foil recover, the aluminium foil recover is installed in the top of the discharge end of conveyer mechanism and is located at cold wave glue along the longitudinal direction
The exit side of roller mechanism;
Glue for being pointed between electrochemical aluminum foil and stock strengthen the print solidify afterwards device of curing process, described
Print solidify afterwards device is installed in the top of conveyer mechanism and is located at the exit side of cold wave rubber roll mechanism along the longitudinal direction;
And
For the vacuum suction mechanism by stock absorption on conveyer mechanism, the vacuum suction mechanism is installed in biography
The lower section of tape-feed is simultaneously connected with conveyer mechanism;
The conveyer mechanism includes being placed in the preceding solidification device of infrared preheating device, print and aluminium foil piece installing device in left-right direction just
The rear class of the prime thermoprint conveyer belt of lower section and the underface for being placed in aluminium foil recover and print solidify afterwards device in left-right direction is scalded
Print conveyer belt, and with respect to the horizontal plane, installation site of the prime thermoprint conveyer belt on Rack Body is passed higher than rear class thermoprint
Send installation site of the band on Rack Body;
The cold wave rubber roll mechanism includes being placed between prime thermoprint conveyer belt and rear class thermoprint conveyer belt and by synchronous
With group be connected with prime thermoprint conveyer belt and rear class thermoprint conveyer belt respectively runner master rotor, be installed in prime thermoprint conveyer belt
Discharge end top and the prime thermoprint dandy roll tangent with runner master rotor, be installed in the feed end of rear class thermoprint conveyer belt
Top and the rear class thermoprint dandy roll tangent with runner master rotor;
It also includes being installed on Rack Body and being located at prime thermoprint dandy roll and rear class thermoprint dandy roll along the longitudinal direction
Between for carrying out India and China's solidification device of curing process to the stock that pressing has electrochemical aluminum foil;
Solidification device, aluminium foil piece installing device, prime thermoprint conveyer belt, cold wave rubber roll mechanism, rear class before the infrared preheating device, print
Thermoprint conveyer belt, print solidify afterwards device and aluminium foil recover are respectively positioned in seal box.
Preferably, the aluminium foil piece installing device includes at least one top for being installed in prime thermoprint conveyer belt along the longitudinal direction
Multistage material roller group, each described multistage material roller group includes a top sliding gas expansion shaft for being used to deposit electrochemical aluminum foil material volume
With bottom sliding gas expansion shaft, the bottom sliding gas expansion shaft is positioned at the underface of top sliding gas expansion shaft, the top
Sliding gas expansion shaft and bottom sliding gas expansion shaft are respectively to that should have one for carrying out tension force to electrochemical aluminum foil and being oriented to control
One is provided between tension guide roller, and tension guide roller and prime thermoprint dandy roll corresponding to the bottom sliding gas expansion shaft to go out
Material deflector roll;
Electrochemical aluminum foil on the top sliding gas expansion shaft via the tension guide roller corresponding to the sliding gas expansion shaft of top,
Tension guide roller and discharging deflector roll corresponding to the sliding gas expansion shaft of bottom are towed to runner master rotor and prime thermoprint dandy roll
Between, electrochemical aluminum foil on the bottom sliding gas expansion shaft is via the tension guide roller corresponding to the sliding gas expansion shaft of bottom and goes out
Material deflector roll is towed between runner master rotor and prime thermoprint dandy roll.
Preferably, the aluminium foil piece installing device also includes a single-stage material roller used cooperatively with one of multistage material roller group,
The single-stage material roller includes the single-stage sliding gas expansion shaft parallel in left and right of one and top sliding gas expansion shaft, and the single-stage is slided
, to that should have at least one single-stage tension guide roller, the electrochemical aluminum foil on the single-stage sliding gas expansion shaft is via single-stage for differential gas expansion shaft
Tension guide roller and discharging deflector roll corresponding to tension guide roller, bottom sliding gas expansion shaft are towed to runner master rotor and prime is scalded
Between coining rubber roll.
Preferably, the prime thermoprint dandy roll and rear class thermoprint dandy roll include being installed in Rack Body and being located at passing
Rubber roll lift cylinder below tape-feed, the top for being placed in conveyer mechanism and the coining rubber roll tangent with runner master rotor with
And the lifting swing arm that axle is connected on Rack Body and bottom is connected with rubber roll lift cylinder, top is connected with coining rubber roll.
Preferably, the conveyer mechanism is also connected in entering on Rack Body and positioned at prime thermoprint conveyer belt including left end shaft
Conveyer belt is plugged into before material side and right-hand member axle is connected on Rack Body and biography of being plugged into after the exit side of rear class thermoprint conveyer belt
Send band;The Timing Belt group includes that the first prime Timing Belt, the second prime Timing Belt, the first prime synchronizing wheel, the second prime are same
Step wheel, prime tensioning wheel, the first rear class Timing Belt, the second rear class Timing Belt, the 3rd rear class Timing Belt, the first rear class synchronizing wheel,
Second rear class synchronizing wheel, the 3rd rear class synchronizing wheel and rear class tensioning wheel;
The prime tensioning wheel and the second prime synchronizing wheel are from top to bottom sequentially distributed in entering for prime thermoprint conveyer belt
Expect the lower section at end, the first prime synchronizing wheel is placed in the lower section of prime thermoprint conveyer belt, and the first prime Timing Belt will turn
Wheel master rotor is integrated with the socket of the first prime synchronizing wheel, and the left end of the second prime Timing Belt is wound on the first prime synchronization
On wheel, and the right-hand member of the second prime Timing Belt is wound on the second prime synchronizing wheel simultaneously, the left end of preceding conveyer belt of plugging into turns
In the right-hand member rotating shaft of axle and prime thermoprint conveyer belt, the prime tensioning wheel is pressed on the second prime Timing Belt;
The rear class tensioning wheel and the 3rd rear class synchronizing wheel are from top to bottom sequentially distributed in going out for rear class thermoprint conveyer belt
Expect the lower section at end, the first rear class synchronizing wheel is placed in the right-hand member lower section of runner master rotor, and the second rear class synchronizing wheel is placed in
Runner master rotor and the first rear class synchronizing wheel set are connected in one by the lower section of rear class thermoprint conveyer belt, the first rear class Timing Belt
Be integrated for first rear class synchronizing wheel and the socket of the second rear class synchronizing wheel by body, the second rear class Timing Belt, the 3rd rear class
The right-hand member of Timing Belt is wound in the second rear class synchronizing wheel, and the 3rd rear class Timing Belt left end simultaneously be wound on the 3rd after
Level synchronizing wheel, after plug into the right-hand member rotating shaft of conveyer belt and the left end rotating shaft of rear class thermoprint conveyer belt, the rear class is tensioned wheel load
Together on the 3rd rear class Timing Belt.
Preferably, prime tumble cylinder and rear class tumble cylinder, the prime tumble cylinder are equiped with the Rack Body
Line shaft be connected to before plug into conveyer belt bottom surface on, and the prime tumble cylinder drive before plug into conveyer belt relative to preceding
Level thermoprint conveyer belt makees 90 degree of flip-flop movements, and the line shaft of the rear class tumble cylinder is plugged into the bottom surface of conveyer belt after being connected to
On, and the rear class tumble cylinder drive after plug into conveyer belt relative to rear class thermoprint conveyer belt make 90 degree of flip-flop movements.
Preferably, the vacuum suction mechanism includes vavuum pump, vacuum accumulator and some air intake ducts, the vavuum pump
The lower section of conveyer mechanism, the vacuum accumulator and vavuum pump phase are assembled in Rack Body and are located at vacuum accumulator
Even, the every tail end of the air intake duct is connected with vavuum pump, before the head end of the every air intake duct is respectively correspondingly connected to
Plug into conveyer belt, prime thermoprint conveyer belt, rear class thermoprint conveyer belt and after plug into conveyer belt bottom surface on.
Preferably, it also includes the cooling line assembly of supply cooling medium, and the cooling line assembly includes wearing respectively
Solidification device, the cooling line of India and China's solidification device and print solidify afterwards devices distribution and to be placed in prime boiling hot before runner master rotor, print
Cooling supporting plate above or below print conveyer belt and rear class thermoprint conveyer belt, solidification device and print solidify afterwards device point before the print
Not Wei Yu it is corresponding cooling supporting plate profile coverage in.
As a result of such scheme, thermoprint part of the present utility model employs+two thermoprints of a runner master rotor
The structure type that dandy roll is engaged, can carry out both sides pressing transfer process by electrochemical aluminum foil and stock;Three are utilized simultaneously
Solidification device is before print, three phases carry out different degrees of curing process to the glue on stock after India and China and print, can be effective
Ensure the integrality and hot stamping effects of hot stamping pattern, its is simple and compact for structure, can ensure such as to hit convex thermoprint, embossment cold wave with
And embossment it is radium-shine transfer etc. thermoprint operation effect;In addition, whole machine can carry out Seamless linkage with other printing equipments, so that
For print products such as sheet material, film, paper, online continuous-flow type one-step print shaping is capable of achieving, without carrying out additional process
Set, production efficiency is effectively improved, with very strong practical value and market popularization value.
Brief description of the drawings
Fig. 1 is the utility model embodiment planar structure schematic diagram in a state of use;
Fig. 2 is the main view floor map () of the internal structure of the utility model embodiment;
Fig. 3 is the main view floor map (two) of the internal structure of the utility model embodiment;
Fig. 4 is the top plan view structural representation of the utility model embodiment;
Fig. 5 is planar structure schematic diagram of the utility model embodiment under rounding state;
In figure:
A, stock;B, electrochemical aluminum foil;C, front end operation processing equipment;D, rear end operation processing equipment;
A, Rack Body;B, seal box;C, conveyer mechanism;D, infrared preheating device;Solidification device before e, print;F, aluminium foil piece installing
Device;G, cold wave rubber roll mechanism;H, aluminium foil recover;K, print solidify afterwards device;M, vacuum suction mechanism;N, India and China's solidification device;
1st, guidance panel;2nd, control cabinet;3rd, fresh wind port;5th, prime thermoprint conveyer belt;6th, rear class thermoprint conveyer belt;7th, runner
Master rotor;8th, prime thermoprint dandy roll;9th, rear class thermoprint dandy roll;10th, top sliding gas expansion shaft;11st, bottom sliding gas
Rise axle;12nd, tension guide roller;13rd, discharge deflector roll;14th, single-stage sliding gas expansion shaft;15th, single-stage tension guide roller;16th, rubber roll lifting
Cylinder;17th, swing arm is lifted;Plugged into before 18 conveyer belt;19th, plugged into after conveyer belt;200th, the first prime Timing Belt;201st, before second
Level Timing Belt;202nd, the first prime synchronizing wheel;203rd, the second prime synchronizing wheel;204th, prime tensioning wheel;205th, the first rear class is same
Step band;206th, the second rear class Timing Belt;207th, the 3rd rear class Timing Belt;208th, the first rear class synchronizing wheel;209th, the second rear class is same
Step wheel;210th, the 3rd rear class synchronizing wheel;211st, rear class tensioning wheel;21st, prime tumble cylinder;22nd, rear class tumble cylinder;23rd, it is true
Empty pump;24th, negative pressure tracheae;25th, cooling line;26th, supporting plate is cooled down.
Specific embodiment
Embodiment of the present utility model is described in detail below in conjunction with accompanying drawing, but the utility model can be by right
It is required that the multitude of different ways for limiting and covering is implemented.
As shown in Figures 1 to 5, a kind of rotary-type full-automatic cold wave machine that the present embodiment is provided, it includes:
Rack Body a, is equiped with Rack Body a and plays the electric controlling assembly of core control action (it is mainly by installing
In the guidance panel 1 on Rack Body a, the electric control box 2 being installed in Rack Body a and corresponding electric wiring etc. structure
Into);
Seal box b, mainly serves for ensuring the working environment of the inside printing of whole machine, to create relative closure
Space simultaneously intercepts the pollution of external environment condition, and it is installed on Rack Body a, while offering fresh wind port 3 and air draft on seal box b
Mouthful (it is mainly formed by the gap between equipment each mechanism part), thinks that the fresh air in seal box b is sent into and taken out automatically
The functions such as wind provide architecture basics;
Conveyer mechanism c, mainly for delivery of stock A, allows it to be carried out in the environment space of seal box b
Print, hit radium-shine transfer process of convex, embossment etc., it is installed on Rack Body a and in left-right direction through seal box b distributions;
Infrared preheating device d, is mainly used in preheating stock A and the glue on stock A is carried out levelling treatment
To strengthen mobility, planarization and the viscosity of the glue on stock A, it is installed in entering for conveyer mechanism c along the longitudinal direction
Expect the top at end;
Solidification device e, is mainly used in carrying out semi-solid preparation treatment (i.e. to the glue on stock A before print:Make on stock A
Glue meets the laminating requirement of electrochemical aluminum foil B), its top for being installed in conveyer mechanism c along the longitudinal direction is simultaneously located at infrared pre-
The exit side of hot device d;Meanwhile, it can be first as the illumination of core using LED UV lamps, mercury lamp, Halogen lamp LED etc. as the case may be
Part, the preferred LED UV lamps of the present embodiment;
Aluminium foil piece installing device f, is mainly used in depositing multiple electrochemical aluminum foil material volumes and enables electrochemical aluminum foil B in corresponding mechanism
(traction) discharging is directed under cooperation, its top for being installed in conveyer mechanism c along the longitudinal direction is simultaneously located at the preceding solidification device e's of print
Exit side;
Cold wave rubber roll mechanism g, mainly makes the electrochemical aluminum foil B for being guided and being gone out by aluminium foil piece installing device f be contacted simultaneously with stock A
Certain bearing capacity is produced, electrochemical aluminum foil B is transferred on the patterned surfaces of the stock A for being printed on glue;
Aluminium foil recover h, is mainly used in drawing and to via cold the electrochemical aluminum foil B exported by aluminium foil piece installing device f
The useless film of the electrochemical aluminum foil B formed after the treatment for scalding rubber roll mechanism g is reclaimed, and it is installed in conveyer belt machine along the longitudinal direction
The top of the discharge end of structure c and be located at cold wave rubber roll mechanism g exit side;
Print solidify afterwards device k, is mainly used in the glue being pointed between electrochemical aluminum foil B and stock A (i.e. through cold wave rubber-roller machine
The glue in finished product formed after structure g treatment) carry out reinforcement curing process (i.e.:Treatment is fully cured), it is along the longitudinal direction
It is installed in the top of conveyer mechanism c and is located at the exit side of cold wave rubber roll mechanism g;Meanwhile, it can be used as the case may be
LED UV lamps, mercury lamp, Halogen lamp LED etc. as core lighting element, the preferred LED UV lamps of the present embodiment;
And
Vacuum suction mechanism m, is mainly used in stock A (also including the finished product formed after the completion of thermoprint operation certainly)
There is off normal, deformation or uneven surface to prevent stock A and finished product in conveyer mechanism c during conveying in absorption
Whole the problems such as, its lower section for being installed in conveyer mechanism c is simultaneously connected with conveyer mechanism c;
Wherein, conveyer mechanism c includes being placed in solidification device e and aluminium foil piece installing device before infrared preheating device d, print in left-right direction
The prime thermoprint conveyer belt 5 of the underface of f and the underface of aluminium foil recover h and print solidify afterwards device k is placed in left-right direction
Rear class thermoprint conveyer belt 6, and with respect to the horizontal plane, 5 installation site on Rack Body a of prime thermoprint conveyer belt is higher than rear class
Installation site of the thermoprint conveyer belt 6 on Rack Body a;And cold wave rubber roll mechanism g then include be placed in prime thermoprint conveyer belt 5 with it is rear
Between level thermoprint conveyer belt 6 and by turning that Timing Belt group is connected with prime thermoprint conveyer belt 5 and rear class thermoprint conveyer belt 6 respectively
Wheel master rotor 7, be installed in prime thermoprint conveyer belt 5 discharge end top and the prime thermoprint pressure tangent with runner master rotor 7
Rubber roll 8, be installed in rear class thermoprint conveyer belt 6 feed end top and the rear class thermoprint dandy roll tangent with runner master rotor 7
9;Meanwhile, also installed along the longitudinal direction on Rack Body a and between prime thermoprint dandy roll 8 and rear class thermoprint dandy roll 9
Have for carrying out the India and China solidification devices n of curing process to the stock A that pressing has electrochemical aluminum foil B that (it can be adopted as the case may be
With LED UV lamps, mercury lamp, Halogen lamp LED etc. as core lighting element, the preferred LED UV lamps of the present embodiment);Infrared preheating device d,
It is solid after solidification device e, aluminium foil piece installing device f, prime thermoprint conveyer belt 5, cold wave rubber roll mechanism 7, rear class thermoprint conveyer belt 6, print before print
Change device k and aluminium foil recover h to be respectively positioned in seal box b.
In this way, by the way that structure improvement will be carried out to the cold wave rubber roll mechanism h in traditional cold wave machine, forming a main rolling of runner
The structure type that cylinder 7 is engaged with two coining rubber rolls 9, using between prime thermoprint conveyer belt 5 and rear class thermoprint conveyer belt 6
Difference in height, can be such that electrochemical aluminum foil B is transferred on stock A by the cooperation between prime thermoprint dandy roll 8 and runner master rotor 7
And once laminating fixation is completed, subsequent stock A and electrochemical aluminum foil B under the traction of rear class part due to can closely be attached to
On the circumferential surface of runner master rotor 7, now the heat produced by India and China's solidification device n then can to glue make further solidify so that
Electrochemical aluminum foil B is firmly bonded on stock A, finally, completes fixed and laminating solidify afterwards treatment the stock A that once fits
And electrochemical aluminum foil B can be carried out second pressing fixation to further enhance between rear class thermoprint dandy roll 9 and runner master rotor 7
Laminating transferring effect between the two, the integrality of hot stamping pattern is can effectively ensure that by the further solidification for printing solidify afterwards device k
And hot stamping effects.In addition, the cooperation of the miscellaneous part and mechanism for passing through whole machine, also causes that machine has the following effects that:
1st, the seal box b by setting can not only form a relatively closed printing environment on machine, prevent external environment condition
Pollution, and air-cooled treatment can be carried out to printing product in seal box b by fresh wind port 3 and exhaust outlet 4 as needed such that it is able to
Effectively prevent from easily causing because the temperature of solidification device e, India and China solidification device n before print and print solidify afterwards device k is too high stock A or
There is the problem of deformation in the final printing product of person;2nd, by the suction function of vacuum suction mechanism m, can by stock A or into
The absorption of product is on conveyer mechanism c such that it is able to effectively prevent it from occurring asking for off normal or deformation during conveying
Topic;3rd, can realize that whole machine can be more according to the installing of the quantity of printed patterns by the structure design to aluminium foil piece installing device f
Individual different electrochemical aluminum foil material volume, meets the requirement of printed patterns quantity;4th, the part in whole machine can be by electric-controlled
Assembly processed realizes centralized Control, is that digital automatic control, the stationarity of running and homework precision of machine etc. are provided
Hardware foundation.
For installation site can be provided for multiple different electrochemical aluminum foil material volumes, to meet stock with multiple printings
While the requirement of multiple difference electrochemical aluminum foil B is needed during pattern, the waste of material, the aluminium of the present embodiment are reduced to greatest extent
Paper tinsel piece installing device f includes the multistage material roller group of at least one top for being installed in prime thermoprint conveyer belt 5 along the longitudinal direction, and each is more
Level material roller group includes a top sliding gas expansion shaft 10 for being used to deposit electrochemical aluminum foil material volume and bottom sliding gas expansion shaft 11,
Bottom sliding gas expansion shaft 11 is located at the underface of top sliding gas expansion shaft 10, top sliding gas expansion shaft 10 and bottom slippage
Formula gas expansion shaft 11 is respectively to that should have one for carrying out tension force to electrochemical aluminum foil B and being oriented to the tension guide roller 12 of control, and bottom is slided
A discharging deflector roll 13 is provided between tension guide roller 12 and prime thermoprint dandy roll 8 corresponding to differential gas expansion shaft 11;With this,
When electrochemical aluminum foil B is drawn, may be such that electrochemical aluminum foil B on top sliding gas expansion shaft 10 via top sliding gas expansion shaft 10
Tension guide roller 12 and discharging deflector roll 13 corresponding to corresponding tension guide roller 12, bottom sliding gas expansion shaft 11 are towed to and turn
Between wheel master rotor 7 and prime thermoprint dandy roll 8, and the electrochemical aluminum foil B on bottom sliding gas expansion shaft 11 is then slided via bottom
Tension guide roller 12 and discharging deflector roll 13 corresponding to differential gas expansion shaft 11 are towed to runner master rotor 7 and prime thermoprint dandy roll
Between 8.Certainly, according to actual needs, also can be between top sliding gas expansion shaft 10 and bottom sliding gas expansion shaft 11 along upper
Lower direction sets multiple sliding gas expansion shafts, and (correspondingly, each sliding gas expansion shaft is respectively to that should have a tension guide roller roller
Axle), and the electrochemical aluminum foil B on sliding gas expansion shaft above can be by after being derived via corresponding tension guide roller roll shaft
Tension guide roller roll shaft corresponding to the sliding gas expansion shaft of lower section is derived, and final is directed into the main rolling of runner via discharging deflector roll 13
Between cylinder 7 and prime thermoprint dandy roll 8.
Used as a preferred scheme, the aluminium foil piece installing device f of the present embodiment also includes that one matches somebody with somebody with one of multistage material roller group
The single-stage material roller that uses of conjunction, single-stage material roller includes the single-stage sliding gas parallel in left and right of one and top sliding gas expansion shaft 10
Rise axle 14, and single-stage sliding gas expansion shaft 14 pairs should have at least one single-stage tension guide roller 15, on single-stage sliding gas expansion shaft 14
Electrochemical aluminum foil B is via the tension guide roller 12 corresponding to single-stage tension guide roller 15, bottom sliding gas expansion shaft 11 and discharging deflector roll 13
It is towed between runner master rotor 7 and prime thermoprint dandy roll 8.Thus, multiple electrochemical aluminum foil B as shown in Figure 5 can be formed
Simultaneously by the structure type of traction conveying, the print request of number of patterns is met;Simultaneously as aluminium foil piece installing device f can same fashionable dress
With multiple electrochemical aluminum foil material volumes, without carrying out multiple repeatability printing to stock A, be conducive to improving the printing of whole machine
Production efficiency.
To strengthen whole cold wave rubber roll mechanism g controllabilitys in itself, can especially be needed to holding according to actual printing
Pressure carries out accommodation, and the prime thermoprint dandy roll 8 and rear class thermoprint dandy roll 9 of the present embodiment include being installed in frame
Rubber roll lift cylinder 16 in body a and below conveyer mechanism c, the top for being placed in conveyer mechanism c and with the main rolling of runner
7 tangent coining rubber rolls and axle of cylinder are connected on Rack Body a and bottom is connected with rubber roll lift cylinder 16, top and coining rubber roll
Connected lifting swing arm 17.In this way, can be made with using the hunt effect for lifting swing arm 17 by the control of rubber roll lift cylinder 16
Coining rubber roll can away from or the runner master rotor 7 that reclines, so as to realize, to the size control of pressure-bearing dynamics, protecting using coining rubber roll
Card electrochemical aluminum foil B can be transferred and is fitted on the patterned surfaces of stock A.
To strengthen the whole machine performance-adjustable for taking up room in itself, while enabling stock A default
Smoothly conveyed in stroke, the conveyer mechanism c of the present embodiment is also connected on Rack Body a and positioned at preceding including left end shaft
Plug into conveyer belt 18 before the feed side of level thermoprint conveyer belt 5 and right-hand member axle is connected in Rack Body a on and is transmitted positioned at rear class thermoprint
Plugged into after exit side with 6 conveyer belt 19;Timing Belt group then includes the first prime Timing Belt 200, the second prime Timing Belt
201st, the first prime synchronizing wheel 202, the second prime synchronizing wheel 203, prime tensioning wheel 204, the first rear class Timing Belt 205, second
Rear class Timing Belt 206, the 3rd rear class Timing Belt 207, the first rear class synchronizing wheel 208, the second rear class synchronizing wheel 209, the 3rd rear class
Synchronizing wheel 210 and rear class tensioning wheel 211;Wherein, the prime synchronizing wheel 203 of prime tensioning wheel 204 and second is from top to bottom sequentially
The lower section of the feed end of prime thermoprint conveyer belt 5 is distributed in, the first prime synchronizing wheel 202 is placed under prime thermoprint conveyer belt 5
With the socket of the first prime synchronizing wheel 202 be integrated runner master rotor 7 by side, the first prime Timing Belt 200, the second prime Timing Belt
201 left end is wound in the first prime synchronizing wheel 202, and the right-hand member of the second prime Timing Belt 201 is then wound on second simultaneously
In prime synchronizing wheel 203, the left end rotating shaft of preceding conveyer belt 18 of plugging into and the right-hand member rotating shaft of prime thermoprint conveyer belt 5, prime tensioning
Wheel 204 is then pressed on the second prime Timing Belt 201;Correspondingly, the rear class synchronizing wheel 210 of rear class tensioning wheel 211 and the 3rd is by upper
The lower section of the discharge end of rear class thermoprint conveyer belt 6 is sequentially distributed under, the first rear class synchronizing wheel 208 is placed in runner master rotor
7 right-hand member lower section, the second rear class synchronizing wheel 209 is placed in the lower section of rear class thermoprint conveyer belt 6, and the first rear class Timing Belt 205 will turn
Wheel master rotor 7 and the first rear class synchronizing wheel 208 are socketed and are integrated, and the second rear class Timing Belt 206 is by the He of the first rear class synchronizing wheel 208
The socket of second rear class synchronizing wheel 209 is integrated, and the right-hand member of the 3rd rear class Timing Belt 207 is wound in the second rear class synchronizing wheel 209,
And the 3rd rear class Timing Belt 208 left end be wound on simultaneously the 3rd rear class synchronizing wheel 210, after plug into the right-hand member rotating shaft of conveyer belt 19
In left end rotating shaft with rear class thermoprint conveyer belt 6, rear class tensioning wheel 211 is pressed on the 3rd rear class Timing Belt 207.In this way, can
By the use of runner master rotor 7 as the driving wheel of whole Timing Belt group, by matching somebody with somebody between each bar Timing Belt and each synchronizing wheel
Close, being synchronized with the movement for each conveyer belt is realized, so as to ensure that the stationarity that stock A or even finished product are conveyed;Meanwhile, utilize
Before conveyer belt 18 of plugging into can dock to receive the holding for coming by front end operation processing equipment C conveyings with front end operation processing equipment C
Print thing A, conveyer belt 19 of being plugged into after utilization can then dock with rear end operation processing equipment D with export by thermoprint process after into
Product, therefore, whole machine can be realized carrying out Seamless linkage with other printing equipments such that it is able to for sheet material, film, paper etc.
Print product realizes online continuous-flow type one-step print shaping, and the setting without carrying out additional process is effectively improved production effect
Rate.
It is enhancing machine volume in itself and the adjustability for taking up room, prime tumble cylinder is equiped with Rack Body a
21 and rear class tumble cylinder 22, the line shaft of prime tumble cylinder 21 plugged into before being connected to conveyer belt 18 bottom surface on, and prime
Tumble cylinder 21 plugs into conveyer belt 18 relative to the 90 degree of flip-flop movements of work of prime thermoprint conveyer belt 5 before driving, based on same principle,
The line shaft of rear class tumble cylinder 22 plugged into after being connected to conveyer belt 19 bottom surface on, and rear class tumble cylinder 22 drive after plug into
Conveyer belt 19 makees 90 degree of flip-flop movements relative to rear class thermoprint conveyer belt 6.In this way, can be according to actual production needs, using turning over
Rotaring cylinder is being that corresponding conveyer belt can downwardly turn over to carry out folding storage or be flipped up being plugged into carry out expansion.
Used as a preferred scheme, the vacuum suction mechanism m of the present embodiment includes vavuum pump 23, vacuum accumulator (in figure
It is not shown) and some air intake duct (not shown)s, vavuum pump 23 and vacuum accumulator are assembled in Rack Body a and are located at
The lower section of conveyer mechanism c, vacuum accumulator is connected with vavuum pump 23, and every tail end of air intake duct then with the phase of vavuum pump 23
Even, the head end of every air intake duct plugged into before being respectively correspondingly connected to conveyer belt 18, prime thermoprint conveyer belt 5, rear class thermoprint pass
Send with 6 and after plug into conveyer belt 19 bottom surface on (be respectively provided with above-mentioned conveyer belt by docking for the head end with air intake duct
Negative pressure tracheae 24).Thus, using the negative pressure power produced by vavuum pump 23, negative pressuren zone is formed on each transmission belt, so that
Stock A or even finished product can be attracted on corresponding conveyer belt, especially ensure that stock A in course of conveying not
The problems such as off normal or deformation occurs.
Because the high light hot environment produced by solidification device can produce greatly negative shadow to the thermoprint process of stock A
Ring, while the abnormal high temperature in machine can also be impacted to machine normal operation in itself, therefore to disclosure satisfy that different prints
Requirement of the brush product to the temperature conditionss in different thermoprint environment, the thermoprinting machine of the present embodiment also includes that supply cooling medium is (such as cold
But oil, cooling water or cold air etc.) cooling line assembly, cooling line assembly includes being arranged in runner master rotor respectively
7th, solidification device e, India and China solidification device n and print solidify afterwards device k are distributed before printing cooling line 25 and be placed in prime thermoprint conveyer belt 5
With the cooling supporting plate 26 above or below rear class thermoprint conveyer belt 6, solidification device e and print solidify afterwards device k are located at respectively before print
In the profile coverage of corresponding cooling supporting plate 26.Can be the photograph of solidification device using the cooling line assembly for setting with this
Penetrate the function of region provided auxiliary cooling, it is to avoid the environment temperature in this region is too high;Meanwhile, each solidification device can also be carried out
Performance improvement, such as using the light fixture of stepless dimming as core lighting element.
Be the functional effect of the thermoprinting machine of explanation the present embodiment for becoming apparent from based on said structure, the present embodiment it is cold
Thermoprinting machine can be using being used as described below and control principle, i.e.,:
1st, electrochemical aluminum foil material volume on aluminium foil piece installing device f is installed according to technological requirement and electrochemical aluminum foil B is pressed stock A's
Conveying direction, threads on aluminium foil recover h;
2nd, will will preceding be plugged into respectively using tumble cylinder conveyer belt 18 and after conveyer belt 19 of plugging into launch, with respectively with front end
Operation processing equipment C and rear end operation processing equipment D are docked, and form streamline;
3rd, debug and set the parameter of machine according to the actual requirements by electric controlling assembly, and realize being powered, lead to
Gas and logical cooling medium, then complete preparation in front end operation processing equipment C, rear end operation processing equipment D and machine
Afterwards, " startup " is pressed on guidance panel 1, machine can start waiting for headend equipment work;
4th, after machine startup, belt mechanism c, vacuum suction mechanism m, cooling line assembly, fresh air, infrared preheating device are sent
D, solidification device etc. bring into operation;
5th, the stock A of cold wave is carried out the need for front end operation processing equipment C sends, aluminium foil piece installing device f and aluminium foil are returned
Device h is received to start to rectify a deviation electrochemical aluminum foil B and tension force regulation and control, coining rubber roll automatic time delay decline with runner master rotor 7
Laminating, stock A is through following order via solidification device e semi-solid preparations → prime thermoprint pressure before infrared preheating device d heating levelling → prints
Rubber roll 8 by electrochemical aluminum foil B and stock A carry out one step press transfer → India and China solidification device n carry out the solidification of thermoprint process → after
Level thermoprint dandy roll 9 carries out second pressing → print solidify afterwards device k to electrochemical aluminum foil B and stock A and is fully cured and electrification
The useless film of aluminium foil B reclaims → is plugged into after conveyer belt 19 and is delivered in rear end operation processing equipment D automatically through aluminium foil recover h,
So as to complete whole workflow.
Preferred embodiment of the present utility model is the foregoing is only, the scope of the claims of the present utility model is not thereby limited,
Equivalent structure or equivalent flow conversion that every utilization the utility model specification and accompanying drawing content are made, or directly or indirectly fortune
Used in other related technical fields, similarly it is included in scope of patent protection of the present utility model.
Claims (8)
1. a kind of rotary-type full-automatic cold wave machine, it includes:
Rack Body, is equiped with the electric controlling assembly for playing core control action on the Rack Body;
Seal box, the seal box is installed on Rack Body, and fresh wind port and exhaust outlet are offered on the seal box;
For the conveyer mechanism of delivering printing, the conveyer mechanism is installed on Rack Body and in left-right direction through close
Joint sealing is distributed;
For being preheated to stock and the glue on stock is set to carry out the infrared preheating device of levelling treatment, it is described infrared pre-
Hot device is installed in the top of the feed end of conveyer mechanism along the longitudinal direction;
For solidification device before the print that semi-solid preparation treatment is carried out to the glue on stock, solidification device is filled along the longitudinal direction before the print
Located at the top of conveyer mechanism and positioned at the exit side of infrared preheating device;
For depositing multiple electrochemical aluminum foil material volumes and electrochemical aluminum foil being carried out into the aluminium foil piece installing device that guiding discharging is processed, the aluminium foil
Piece installing device is installed in the top of conveyer mechanism and is located at the exit side of solidification device before print along the longitudinal direction;
For the cold wave rubber roll mechanism being transferred to the electrochemical aluminum foil for being guided by aluminium foil piece installing device and being gone out on stock;
For the aluminium foil for being drawn to the electrochemical aluminum foil exported by aluminium foil piece installing device and reclaimed to the useless film of electrochemical aluminum foil
Recover, the aluminium foil recover is installed in the top of the discharge end of conveyer mechanism and is located at cold wave rubber-roller machine along the longitudinal direction
The exit side of structure;
Glue for being pointed between electrochemical aluminum foil and stock strengthen the print solidify afterwards device of curing process, after the print
Solidification device is installed in the top of conveyer mechanism and is located at the exit side of cold wave rubber roll mechanism along the longitudinal direction;
And
For the vacuum suction mechanism by stock absorption on conveyer mechanism, the vacuum suction mechanism is installed in conveyer belt
The lower section of mechanism is simultaneously connected with conveyer mechanism;
It is characterized in that:
The conveyer mechanism includes being placed in left-right direction the underface of the preceding solidification device of infrared preheating device, print and aluminium foil piece installing device
Prime thermoprint conveyer belt and be placed in left-right direction aluminium foil recover and print solidify afterwards device underface rear class thermoprint pass
Band is sent, and with respect to the horizontal plane, installation site of the prime thermoprint conveyer belt on Rack Body is higher than rear class thermoprint conveyer belt
Installation site on Rack Body;
The cold wave rubber roll mechanism includes being placed between prime thermoprint conveyer belt and rear class thermoprint conveyer belt and by Timing Belt group
The runner master rotor that is connected with prime thermoprint conveyer belt and rear class thermoprint conveyer belt respectively, it is installed in going out for prime thermoprint conveyer belt
Expect end top and the prime thermoprint dandy roll tangent with runner master rotor, be installed in rear class thermoprint conveyer belt feed end it is upper
The tangent rear class thermoprint dandy roll of Fang Bingyu runner master rotors;
It also includes being installed in along the longitudinal direction on Rack Body and being located between prime thermoprint dandy roll and rear class thermoprint dandy roll
For carrying out India and China's solidification device of curing process to the stock that pressing has electrochemical aluminum foil;
Solidification device, aluminium foil piece installing device, prime thermoprint conveyer belt, cold wave rubber roll mechanism, rear class thermoprint before the infrared preheating device, print
Conveyer belt, print solidify afterwards device and aluminium foil recover are respectively positioned in seal box.
2. rotary-type full-automatic cold wave machine as claimed in claim 1 a kind of, it is characterised in that:The aluminium foil piece installing device is included extremely
The multistage material roller group of a few top for being installed in prime thermoprint conveyer belt along the longitudinal direction, each described multistage material roller group is wrapped
Including one is used to deposit the top sliding gas expansion shaft and bottom sliding gas expansion shaft of electrochemical aluminum foil material volume, the bottom sliding gas
The axle position that rises is in the underface of top sliding gas expansion shaft, and the top sliding gas expansion shaft and bottom sliding gas expansion shaft are right respectively
Ying Youyi is used to carry out electrochemical aluminum foil tension force and is oriented to the tension guide roller of control, and corresponding to the bottom sliding gas expansion shaft
Tension guide roller and prime thermoprint dandy roll between be provided with a discharging deflector roll;
Electrochemical aluminum foil on the top sliding gas expansion shaft is via tension guide roller, the bottom corresponding to the sliding gas expansion shaft of top
Tension guide roller and discharging deflector roll corresponding to sliding gas expansion shaft are towed between runner master rotor and prime thermoprint dandy roll,
Electrochemical aluminum foil on the bottom sliding gas expansion shaft is led via the tension guide roller corresponding to the sliding gas expansion shaft of bottom and discharging
Roller is towed between runner master rotor and prime thermoprint dandy roll.
3. rotary-type full-automatic cold wave machine as claimed in claim 2 a kind of, it is characterised in that:The aluminium foil piece installing device also includes
The one single-stage material roller used cooperatively with one of multistage material roller group, the single-stage material roller includes one with top sliding gas expansion shaft
The single-stage sliding gas expansion shaft parallel in left and right, the single-stage sliding gas expansion shaft leads to that should have at least one single-stage tension force
Roller, the electrochemical aluminum foil on the single-stage sliding gas expansion shaft is via corresponding to single-stage tension guide roller, bottom sliding gas expansion shaft
Tension guide roller and discharging deflector roll are towed between runner master rotor and prime thermoprint dandy roll.
4. rotary-type full-automatic cold wave machine as claimed in claim 1 a kind of, it is characterised in that:The prime thermoprint dandy roll and
Rear class thermoprint dandy roll includes being installed in Rack Body and the rubber roll lift cylinder below conveyer mechanism, is placed in transmission
Top with mechanism and the coining rubber roll tangent with runner master rotor and axle are connected on Rack Body and bottom and rubber roll lifting air
The lifting swing arm that cylinder is connected, top is connected with coining rubber roll.
5. rotary-type full-automatic cold wave machine as claimed in claim 1 a kind of, it is characterised in that:The conveyer mechanism also includes
Left end shaft is connected on Rack Body and plugs into conveyer belt before the feed side of prime thermoprint conveyer belt and right-hand member axle is connected in frame
Plugged into conveyer belt on body and after being located at the exit side of rear class thermoprint conveyer belt;The Timing Belt group includes the first prime synchronization
Band, the second prime Timing Belt, the first prime synchronizing wheel, the second prime synchronizing wheel, prime tensioning wheel, the first rear class Timing Belt,
Two rear class Timing Belts, the 3rd rear class Timing Belt, the first rear class synchronizing wheel, the second rear class synchronizing wheel, the 3rd rear class synchronizing wheel and after
Level tensioning wheel;
The prime tensioning wheel and the second prime synchronizing wheel are from top to bottom sequentially distributed in the feed end of prime thermoprint conveyer belt
Lower section, the first prime synchronizing wheel is placed in the lower section of prime thermoprint conveyer belt, and the first prime Timing Belt is by runner master
Roller is integrated with the socket of the first prime synchronizing wheel, and the left end of the second prime Timing Belt is wound on the first prime synchronizing wheel
On, and the right-hand member of the second prime Timing Belt is wound on the second prime synchronizing wheel, the left end rotating shaft of preceding conveyer belt of plugging into simultaneously
In right-hand member rotating shaft with prime thermoprint conveyer belt, the prime tensioning wheel is pressed on the second prime Timing Belt;
The rear class tensioning wheel and the 3rd rear class synchronizing wheel are from top to bottom sequentially distributed in the discharge end of rear class thermoprint conveyer belt
Lower section, the first rear class synchronizing wheel is placed in the right-hand member lower section of runner master rotor, and the second rear class synchronizing wheel is placed in rear class
With the socket of the first rear class synchronizing wheel be integrated runner master rotor by the lower section of thermoprint conveyer belt, the first rear class Timing Belt, institute
State the second rear class Timing Belt to be integrated the first rear class synchronizing wheel and the socket of the second rear class synchronizing wheel, the 3rd rear class Timing Belt
Right-hand member be wound in the second rear class synchronizing wheel, and the 3rd rear class Timing Belt left end simultaneously be wound on the 3rd rear class synchronization
Wheel, after plug into the right-hand member rotating shaft of conveyer belt and the left end rotating shaft of rear class thermoprint conveyer belt, the rear class tensioning wheel is pressed on the
On three rear class Timing Belts.
6. rotary-type full-automatic cold wave machine as claimed in claim 5 a kind of, it is characterised in that:Before being equiped with the Rack Body
Level tumble cylinder and rear class tumble cylinder, the line shaft of the prime tumble cylinder plugged into before being connected to conveyer belt bottom surface on,
And conveyer belt of being plugged into before the prime tumble cylinder driving makees 90 degree of flip-flop movements, the rear class relative to prime thermoprint conveyer belt
The line shaft of tumble cylinder plugged into after being connected to conveyer belt bottom surface on, and plug into conveyer belt after the rear class tumble cylinder drives
Make 90 degree of flip-flop movements relative to rear class thermoprint conveyer belt.
7. rotary-type full-automatic cold wave machine as claimed in claim 5 a kind of, it is characterised in that:The vacuum suction mechanism includes
Vavuum pump, vacuum accumulator and some air intake ducts, the vavuum pump and vacuum accumulator are assembled in Rack Body and are located at
The lower section of conveyer mechanism, the vacuum accumulator is connected with vavuum pump, every tail end of the air intake duct with vavuum pump phase
Even, the head end of the every air intake duct plugged into before being respectively correspondingly connected to conveyer belt, prime thermoprint conveyer belt, rear class thermoprint pass
Send band and after plug into conveyer belt bottom surface on.
8. a kind of rotary-type full-automatic cold wave machine as any one of claim 1-7, it is characterised in that:It also includes supplying
To the cooling line assembly of cooling medium, the cooling line assembly include be arranged in respectively runner master rotor, print before solidification device,
The cooling line of India and China's solidification device and print solidify afterwards devices distribution and it is placed in prime thermoprint conveyer belt and rear class thermoprint conveyer belt
Above or below cooling supporting plate, solidification device and print solidify afterwards device are located at the wheel of corresponding cooling supporting plate respectively before the print
In wide coverage.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621342415.8U CN206277787U (en) | 2016-12-08 | 2016-12-08 | A kind of rotary-type full-automatic cold wave machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621342415.8U CN206277787U (en) | 2016-12-08 | 2016-12-08 | A kind of rotary-type full-automatic cold wave machine |
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Publication Number | Publication Date |
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CN206277787U true CN206277787U (en) | 2017-06-27 |
Family
ID=59074590
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CN201621342415.8U Withdrawn - After Issue CN206277787U (en) | 2016-12-08 | 2016-12-08 | A kind of rotary-type full-automatic cold wave machine |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106515208A (en) * | 2016-12-08 | 2017-03-22 | 万军霞 | Rotating wheel type full-automatic cold stamping machine |
WO2018103046A1 (en) * | 2016-12-08 | 2018-06-14 | 万军霞 | Fully automatic cold stamping machine of rotating wheel type |
CN110143047A (en) * | 2019-07-03 | 2019-08-20 | 万军霞 | A kind of cold wave printing roller |
WO2022226676A1 (en) * | 2021-04-25 | 2022-11-03 | 万军霞 | Curing mechanism and multifunctional hot stamping device that uses mechanism |
-
2016
- 2016-12-08 CN CN201621342415.8U patent/CN206277787U/en not_active Withdrawn - After Issue
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106515208A (en) * | 2016-12-08 | 2017-03-22 | 万军霞 | Rotating wheel type full-automatic cold stamping machine |
WO2018103046A1 (en) * | 2016-12-08 | 2018-06-14 | 万军霞 | Fully automatic cold stamping machine of rotating wheel type |
CN110143047A (en) * | 2019-07-03 | 2019-08-20 | 万军霞 | A kind of cold wave printing roller |
TWI701154B (en) * | 2019-07-03 | 2020-08-11 | 萬軍霞 | Cold stamping roller |
WO2022226676A1 (en) * | 2021-04-25 | 2022-11-03 | 万军霞 | Curing mechanism and multifunctional hot stamping device that uses mechanism |
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