CN109720084A - Gold stamping device - Google Patents

Abstract

Present disclose provides a kind of gold stamping devices, comprising: crosses foil transfer assembly, passes through for gold stamping band and stock and the gold stamping layer of the first area of the pattern on the gold stamping band is transferred on the stock；And lateral displacement component, by as it is described cross gold stamping band derived from foil transfer assembly along the direction vertical with band direction of travel carry out lateral displacement after be directed to again it is described cross foil transfer assembly, be transferred to the gold stamping layer of another area of the pattern on gold stamping band different from first area of the pattern on the stock.The disclosure passes through the gold stamping band that will have been subjected to primary gold stamping layer transfer after the direction progress lateral displacement vertical with band direction of travel, gold stamping layer transfer is carried out again in different area of the pattern, to realize being used repeatedly for gold stamping band.

Description

Gold stamping device

Technical field

This disclosure relates to printing equipment technology more particularly to a kind of gold stamping device.

Background technique

Gold stamping essence is exactly to transfer, and is that gold stamping band draw above case is transferred to stock above process process.

Fig. 1 is schematic diagram of the prior art gold stamping device in the multiple patterns of different parts ironing of stock.Such as Fig. 1 institute Show, gold stamping band-A1, A2, A3 can only be separately provided in the corresponding position of each pattern in gold stamping device.However, many stocks Needing gold stamping position is multiple lesser regions, in the case where stock blank place is more, can largely waste gold stamping band Material increases use cost.

Disclosure

(1) technical problems to be solved

Present disclose provides a kind of gold stamping devices, at least partly to solve technical problem set forth above.

(2) technical solution

Disclosure gold stamping device, comprising: cross foil transfer assembly, pass through for gold stamping band and stock and will be on gold stamping band The gold stamping layer of first area of the pattern is transferred on stock；And lateral displacement component, it will be scalded derived from foil transfer assembly as crossing Gold ribbon material was directed to foil transfer assembly after the direction progress lateral displacement vertical with band direction of travel again, made gold stamping band The gold stamping layer of another area of the pattern on material different from the first area of the pattern is transferred on stock.

In some embodiments of the present disclosure, lateral displacement component includes: N number of transposition structure, N≤1；Transposition structure packet Include: two are tiltedly led foil roller, and two are tiltedly led the setting of foil roller side by side parallel, and the two and band direction of travel are in 45 ° of angles.

In some embodiments of the present disclosure, in lateral displacement component, N≤2, each transposition structure will independently be turned by crossing foil It moves gold stamping band derived from component and was directed to foil turn again after the direction progress lateral displacement vertical with band direction of travel Move component, in which: the spaced up pre-determined distance in side of N number of transposition structure plane where perpendicular to transposition structure is arranged in parallel； Or N number of transposition structure is arranged side by side in the same plane.

In some embodiments of the present disclosure, lateral displacement component further include: displacement guide rail structure；Displacement guide rail structure packet Include: two guide rails arranged side by side, vertical with band direction of travel, the rear and front end for tiltedly leading foil roller is connected to two and leads On the sliding block of rail；Wherein, tiltedly lead foil roller can on displacement guide rail structure along the square upward sliding vertical with band direction of travel or Position locking.

In some embodiments of the present disclosure, lateral displacement component further include: lead foil roller group；Leading foil roller group includes: to extend Foil roller is led in the direction upstream side vertical with band direction of travel and foil roller is led in downstream side, and the two is respectively arranged at two and tiltedly leads foil roller Upstream side and downstream side, in which: foil roller will be led in upstream side to be directed to lateral displacement as crossing gold stamping band derived from foil transfer assembly Transposition structure in component；It leads foil roller and the gold stamping band after the lateral displacement as derived from transposition structure was directed to foil in downstream side Transfer assembly.

In some embodiments of the present disclosure, further includes: positioning components, by adjusting gold stamping band through lateral displacement component Into foil transfer assembly stroke, and then adjust the relative position in different pattern region to be transferred on gold stamping band.

In some embodiments of the present disclosure, in lateral displacement component, plane where transposition structure and excessively foil transfer assembly In pattern transfering channel it is parallel, the spaced up pre-determined distance in side of N number of transposition structure plane where perpendicular to transposition structure It is arranged in parallel；Each transposition structure includes respective displacement guide rail structure and leads foil roller group, transposition structure further include: two spacers, Its extending direction is vertical with gold stamping band direction of travel；Wherein, two guide rails of displacement guide rail structure are respectively arranged at two supports It blocks.

In some embodiments of the present disclosure, transposition structure further include: frame has one first side and a second side, First side and second side are located at the two sides of band direction of travel；Positioning components include: positioning guide rail structure, guide rail knot of transposing Structure includes: the first guide rail and the second guide rail extended along the direction vertical with plane where transposition structure, and the two, which is located at, changes First side of bit architecture and second side；Wherein, the sliding block on the first guide rail is fixed in the first side of frame；Second side of frame is solid Sliding block on the second guide rail, frame can slide up on positioning guide rail structure along the side vertical with plane where transposition structure The locking of dynamic or position.

In some embodiments of the present disclosure, positioning components further include: N number of stretching structure, respectively to N number of transposition structure its One of position on the direction vertical with plane where transposition structure controlled；Wherein, each stretching structure includes: two Screw rod external member is respectively arranged at the first side and second side of transposition structure；Screw rod external member includes: nut, is fixed on the one of frame Side；Screw rod is set to the side of frame, passes through nut, and its external screw thread is matched with the internal screw thread of nut；Screw rod fixing seat, Screw rod bearing is fixed on the inside of screw rod fixing seat；And screw drive motor, for driving screw rod to rotate.

In some embodiments of the present disclosure, in lateral displacement component, plane where transposition structure and excessively foil transfer assembly In pattern transfering channel it is parallel, N number of transposition structure is arranged side by side in the same plane, and N number of transposition structure shares displacement guide rail Structure and foil roller group is led, lateral displacement component includes: two spacers, and extending direction is vertical with band direction of travel；Wherein, position Two guide rails for moving guide rail structure are respectively arranged on two spacers, the rear and front end difference for tiltedly leading foil roller of N number of transposition structure It is connected on the sliding block of two guide rails.

In some embodiments of the present disclosure, positioning components include: preceding stretching structure and/or post-tensioning structure, in which:

Preceding stretching structure includes: that the first adjustment roller and the 6th cross foil roller, and the two extending direction is vertical with band direction of travel, The first adjustment roller can along band direction of travel be displaced or position lock, wherein as cross foil transfer assembly derived from gold stamping band according to It is secondary bypass the 6th cross foil roller and the first adjustment roller after, be directed to transposition structure；

Post-tensioning structure includes: second adjustment roller and third crosses foil roller, and the extending direction and band direction of travel of the two hang down Directly, second adjustment roller can be displaced along band direction of travel or position locks, wherein the gold stamping band as derived from transposition structure is successively After crossing foil roller around second adjustment roller and third, foil transfer assembly was imported.

In some embodiments of the present disclosure, positioning components further include: two spacers, extending direction and band traveling side To parallel；Positioning guide rail structure, comprising: two guide rails being set on spacer；Wherein, the first adjustment roller and second adjustment roller Both ends are individually fixed on the sliding block of two guide rails, and the two can be on positioning guide rail structure along the side vertical with band direction of travel Upward sliding or position locking.

In some embodiments of the present disclosure, cross foil transfer assembly are as follows: rotary-cutting hot stamping structure, circle flatten gold stamping structure or The gold stamping structure of platen.

In some embodiments of the present disclosure, foil transfer assembly is crossed are as follows: rotary-cutting hot stamping structure, comprising: match down Roller and upper roller form the pattern transfering channel passed through for gold stamping band and stock between the two；It is set to pattern transfer The preceding of passage upstream side crosses foil roller；It is set to the rear of pattern transfering channel downstream side and crosses foil roller；Wherein, bottom roll is actively to rotate Roller.

In some embodiments of the present disclosure, gold stamping device is cold wave equipment；And/or gold stamping band is electrochemical aluminum strip, And/or stock is paper.

(3) beneficial effect

It can be seen from the above technical proposal that disclosure gold stamping device at least has the advantages that one of them:

(1) horizontal by that will be carried out by gold stamping band derived from foil transfer assembly along the direction vertical with band direction of travel To after displacement, foil transfer assembly was imported again, to realize the utilization again of gold stamping band, gold stamping band is greatly saved Material；

(2) by positioning components, the position of the adjustment front and back gold stamping band Jing Guo foil transfer assembly twice, two before and after realizing The adjustment of secondary gold stamping pattern corresponding position on gold stamping band prevents the gold stamping pattern on rear primary gold stamping gold stamping band in the process Corresponding gold stamping layer has consumed；

(3) by setting screw rod and sliding rail, the front and back position of the gold stamping band Jing Guo foil transfer assembly twice is realized Automatic adjustment, improves automatization level, greatly facilitates use；

(4) complete equipment structure is simple, easy to adjust, has stronger application value.

Detailed description of the invention

Fig. 1 is schematic diagram of the prior art cold wave equipment in the multiple patterns of different parts ironing of stock.

Fig. 2 is the structural schematic diagram according to first embodiment of the present disclosure cold wave equipment.

Fig. 3 is the structural schematic diagram of the upper transposition structure of transposition component in gold stamping device shown in Fig. 2.

Fig. 4 is the structural schematic diagram according to second embodiment of the present disclosure cold wave equipment.

Fig. 5 is the structural schematic diagram of the first diagonal roll structure of transposition component in gold stamping device shown in Fig. 4.

Fig. 6 is the structural schematic diagram of the first adjustment roll structure of positioning components in gold stamping device shown in Fig. 4.

[embodiment of the present disclosure main element symbol description in attached drawing]

100- crosses foil transfer assembly；

101- bottom roll；The upper roller of 102-；

Foil roller is crossed before 103-；Foil roller is crossed after 104-；

200- lateral displacement component；

The upper transposition structure of 210-；

211- lead frame；Foil roller is led after 212-；The leading foil roller of 213-；

214- fromer rail；215- rear rail；216- first tiltedly leads foil roller；

217- second tiltedly leads foil roller；Attachment base after 218-；Attachment base before 219-；

Transposition structure under 220-；

300- positioning components；

311- left rail；The right guide rail of 312-；The first sliding block of 313-；

The second sliding block of 314-；315- third sliding block；316- Four-slider；

320- the first screw rod external member；

The first nut of 321-；The first screw rod of 322-；323- the first screw rod fixing seat；

The 4th screw rod external member of 330-；

340- the second screw rod external member；

The second nut of 341-；The second screw rod of 342-；343- the second screw rod fixing seat；

350- third screw rod external member；

200 '-lateral displacement component；

The first spacer of 241-；The second spacer of 242-；

The first oblique guide of 251-；The second oblique guide of 252-；

The first transposition structure of 260-；

The first diagonal roll structure of 261-；The second diagonal roll structure of 262-；

261a- first tiltedly leads foil roller；261b cross roll link block；261c- the first cross roll sliding block；

261d cross roll link block；261e the second cross roll sliding block；

The second transposition structure of 270-；

271- third diagonal roll structure；The 4th diagonal roll structure of 272-；

281- the 5th crosses foil roller；282- the 4th crosses foil roller；

300 '-positioning components；

361- left rail；The right guide rail of 362-

370- the first adjustment roll structure

371- the first adjustment roller；The first link block of 372-；The first guide rail slide block of 373-；

The second link block of 374-；The second guide rail slide block of 375-；

380- second adjustment roll structure；

391- the 6th crosses foil roller；392- third crosses foil roller；

L₁、L₂Lateral displacement

A, A ', A 〞-same root electrification aluminum strip；A1, A2, A3- tri- electrochemical aluminum strips；

B- paper.

Specific embodiment

In the disclosure, lateral displacement component realizes that the lateral displacement of gold stamping band, positioning components realize gold stamping band in axis To translation realize the multiple utilization of gold stamping band so that gold stamping band is transferred to stock in axial different location, reach To the purpose for saving gold stamping band.

For the purposes, technical schemes and advantages of the disclosure are more clearly understood, below in conjunction with specific embodiment, and reference The disclosure is further described in attached drawing.

In first exemplary embodiment of the disclosure, a kind of gold stamping device is provided.In the present embodiment, gold stamping to set Standby is cold wave equipment, and gold stamping band is electrochemical aluminum strip A, and holding primer is paper B.

Fig. 2 is the structural schematic diagram according to first embodiment of the present disclosure cold wave equipment.As shown in Fig. 2, the present embodiment cold wave Equipment includes:

Foil transfer assembly 100 is crossed, is passed through for electrochemical aluminum strip A and paper B and by the first area of the pattern in electrochemical aluminum strip Aluminium layer be transferred on paper B；

Lateral displacement component 200 will be hung down as crossing electrification aluminum strip edge derived from foil transfer assembly 100 with band direction of travel Straight direction was directed to foil transfer assembly 100 after being displaced again, made to be different from the first area of the pattern in electrochemical aluminum strip The aluminium layer of at least one second area of the pattern be transferred on paper；

Positioning components 300 entered the stroke of foil transfer assembly by adjusting electrochemical aluminum strip through lateral displacement component, into And adjust the relative position in different pattern region to be transferred in electrochemical aluminum strip.

Each component part of the present embodiment cold wave equipment is described in detail individually below.

In the present embodiment, crosses foil transfer assembly 100 and use rotary-cutting hot stamping structure, but the disclosure is not limited thereto.? In the other embodiments of the disclosure, gold stamping structure or the gold stamping structure of platen can also be flattened for circle by crossing foil transfer assembly 1.

Referring to figure 2., crossing foil transfer assembly 100 includes: the bottom roll 101 and upper roller 102 matched, between the two shape At the pattern transfering channel passed through for electrochemical aluminum strip and paper；It is set to the preceding of pattern transfering channel upstream side and crosses foil roller 103； It is set to the rear of pattern transfering channel downstream side and crosses foil roller 104.Upstream side and downstream side herein is relative to electrochemical aluminum strip Direction of travel for, wherein two rollers (101,102) are used to press electrochemical aluminum strip A and paper B, and two are crossed foil rollers The function of (103,104) is the progress path for guiding electrochemical aluminum strip.

Wherein, bottom roll 101, upper roller 102, preceding foil roller 103 excessively, rear foil roller 104 of crossing are all rotary rollers, Both ends are all locked on the left and right wallboard of complete machine.Bottom roll 101, which is driven by a motor, actively to be rotated.Electrochemical aluminum strip A and paper B are same When pattern transfering channel between bottom roll 101 and upper roller 102 pass through, the aluminium layer in electrochemical aluminum strip is according on paper Pattern shifts.

As described above, lateral displacement component 200 is for electrification aluminum strip edge and band as derived from foil transfer assembly 100 excessively The vertical direction of material direction of travel was directed to foil transfer assembly 100 after being displaced again, made to be different from electrochemical aluminum strip Second area of the pattern of the first area of the pattern and the aluminium layer of third area of the pattern are transferred on paper.

In the present embodiment, lateral displacement component 200 includes: 210 He of upper transposition structure for separating pre-determined distance in the longitudinal direction Lower transposition structure 220.Plane where two transposition structures and the pattern transfering channel crossed in foil transfer assembly are parallel substantially parallel.

Wherein, the electrochemical aluminum strip after the aluminium layer of the first area of the pattern is transferred on paper after upper transposition structure 210, Lateral displacement L₁, for convenience, label is band A ' in figure, and electrification aluminum strip A ' and paper B are guided jointly To foil transfer assembly 100 is crossed, the aluminium layer of the second area of the pattern is transferred on paper B；Then, after the second transposition structure, Lateral displacement L₂, for convenience, in figure label be band A 〞, electrification aluminum strip A 〞 and paper B commonly through It is above-mentioned to cross foil transfer assembly 100, the aluminium layer of third area of the pattern is transferred on paper B.As it can be seen that advance in electrochemical aluminum strip In the process, it has recycled three times, compared to traditional gold stamping device strip material mode, electrochemical aluminum strip is greatly saved.

Wherein, upper transposition structure 210 is different with the installation site of lower transposition structure 220, and structure is similar.The hereafter above transposition It is illustrated for structure 210.

Fig. 3 is the structural schematic diagram of the upper transposition structure of lateral displacement component in cold wave equipment shown in Fig. 2.As shown in figure 3, Transposition structure 210 includes: on this

Lead frame 211 has two spacers along the direction vertical with electrochemical aluminum strip direction of travel；

Lead foil roller group, comprising: after lead foil roller 212, be rotatablely arranged at the upstream side of lead frame；Leading foil roller 213, It is rotatablely arranged at the downstream side of lead frame；

Displacement guide rail structure, comprising: fromer rail 214 and rear rail 215 are respectively arranged at two spacers of lead frame On；

First tiltedly leads foil roller 216, and both ends are respectively slidably connected to the sliding block of fromer rail and rear rail；

Second tiltedly leads foil roller 217, tiltedly leads foil roller with first and is arranged side by side, both ends are equally connected to fromer rail with after The sliding block of guide rail.

Wherein, first foil roller 216 is tiltedly led and second tiltedly leads foil roller 217 and the angle of electrification aluminum strip direction of travel is about 45°。

Please continue to refer to Fig. 3, two tiltedly lead foil roller (216,217) be slidably connected in an identical manner two guide rails it Between.By taking first tiltedly leads foil roller 216 as an example, first end is connected on the sliding block of rear rail by rear attachment base 218, second end It is connected on the sliding block of fromer rail by preceding attachment base 219.In addition, also having on preceding attachment base 219 and rear attachment base 218 tight Screw is determined, for after tiltedly leading foil roller 216 by first and being moved to appropriate position first can be fixed by locking holding screw Lead the position of foil bar.

Wherein, the electrochemical aluminum strip A after the aluminium layer of the first area of the pattern is transferred on paper leads foil roller 212 after passing through first It turns to, then successively tiltedly leads foil roller 216 and second around first side by side and tiltedly lead foil roller 217, realize lateral displacement L₁, then again It is turned to by leading foil roller 213, was directed to foil transfer assembly 100 again, and marked lateral displacement L in figure₁Anodized aluminium band afterwards Material is A '.

It will be apparent to those skilled in the art that tiltedly leading foil roller by adjusting the first oblique foil roller 308 and second of leading on guide rail Between spacing, adjustable lateral displacement L₁Size.If lateral displacement does not need adjustment, position can also be not provided with Guide rail structure is moved, the attachment base for directly tiltedly leading two at foil roller both ends is fixed on the corresponding position of spacer.

In the lower section of upper transposition structure 210, be additionally provided with lower transposition structure 220, with upper transposition structure separate it is default away from From setting, it is substantially the same with its structure, details are not described herein again.

It should be noted that the leading foil roller in leading foil roller, lower transposition structure in the present embodiment, in upper transposition structure And the preceding foil roller excessively excessively in foil transfer assembly, it is substantially aligned in the longitudinal direction.Likewise, led after in upper transposition structure foil roller, The rear foil roller excessively in foil roller and excessively foil transfer assembly is led after in lower transposition structure, it is substantially aligned in the longitudinal direction.

By two transposition structures, this case cold wave equipment realizes the recycling twice of electrochemical aluminum strip.Together with most opening The primary utilization begun, one electrochemical aluminum strip have recycled three times, and anodized aluminium is greatly saved.

It is understood that in order to realize recycling for electrochemical aluminum strip, it is also necessary to guarantee two figures in electrochemical aluminum strip Case region mutually staggers, this just needs positioning components 300.Certainly, if area of the pattern inherently mutually staggers, positioning components It is dispensed.

In the present embodiment, positioning components 300 are used to control moving up and down for transposition structure 210 and lower transposition structure 220, And then adjust the relative position of the first area of the pattern and the second area of the pattern in electrochemical aluminum strip.

Referring to figure 2., positioning components 300 include:

Longitudinally disposed positioning guide rail structure；

First stretching structure, transposition structure is slided up and down in guide rail group in driving, comprising: the first screw rod external member 320 and Four screw rod external members 330；

Second stretching structure drives lower transposition structure to slide up and down in guide rail group, comprising: the second screw rod external member 340 and the Three screw rod external members 350.

Wherein, positioning guide rail structure includes: left rail 311 and right guide rail 312.The outside of left rail 311 and right guide rail 312 Directly locked together with complete machine wallboard.

Two sliding blocks that setting can be slided along guide rail in the inside of left rail 311: the first sliding block 313 and the second sliding block 314, Two sliding blocks that setting can be slided along guide rail in the inside of right guide rail 312: third sliding block 315 and Four-slider 316.Wherein:

(1) it is fixed on the left of the lead frame of transposition structure under on the first sliding block 313 on left rail；Right side is fixed on On third sliding block 315 on right guide rail；

(2) the second sliding block 314 being fixed on the left of the lead frame of transposition structure on left rail；The right side is fixed on right side On Four-slider 316 on guide rail.

By guide rail group and four sliding blocks, the tune of lower transposition structure and upper transposition structure position in the longitudinal direction may be implemented Section, and then realize mutually staggering for the first area of the pattern and the second area of the pattern in electrochemical aluminum strip.

It will be understood by those skilled in the art that four sliding blocks can be screwed on guide rail, pass through manual progress It adjusts.But it is more preferable to realize the automatic adjustment of upper transposition structure and lower transposition structure by control.

First stretching structure includes: the first screw rod external member 320 and the 4th screw rod external member 330.

First screw rod external member 320 includes: the first nut 321, is fixed on the left side of transposition structure；First screw rod 322, if It is placed in the left side of transposition structure, passes through the first nut, and its external screw thread is matched with the internal screw thread of the first nut；First screw rod Fixing seat 323 is fixed on the complete machine wallboard in left side, and the first screw rod bearing is fixed on the inside of the first screw rod fixing seat；The One screw drive motor (not shown), is set to the upper end of the first screw rod, for driving the rotation of the first screw rod；

4th screw rod external member 330 includes: the 4th nut, is fixed on the right side of transposition structure, and the 4th screw rod is set to The right side of transposition structure passes through the 4th nut, and the internal screw thread of its external screw thread and the 4th nut matches；4th screw rod is fixed Seat, is fixed on the complete machine wallboard on right side, and the 4th screw rod bearing is fixed on the inside of the 4th screw rod fixing seat；4th screw rod driving electricity Machine (not shown) is set to the upper end of the 4th screw rod, for driving the rotation of the 4th screw rod.

By the first screw drive motor of driving and the operation of the 4th screw drive motor, the first screw rod 322 and the 4th is driven Screw rod 332 rotates, and transposition structure 210 can be driven to move up and down, the automatic tune of 210 lengthwise position of transposition structure in realization Section.

Second stretching structure includes: the second screw rod external member 340 and third screw rod external member 350.

Second screw rod external member 340 includes: the second nut 341, is fixed on the left side of lower transposition structure；Second screw rod 342, if It is placed in the left side of lower transposition structure, passes through the second nut, and its external screw thread is matched with the internal screw thread of the second nut；Second screw rod Fixing seat 343 is fixed on complete machine wallboard, and the second screw rod bearing is fixed on the inside of the second screw rod fixing seat；Second screw rod Driving motor (not shown) is set to the upper end of the second screw rod, for driving the rotation of the second screw rod；

Third screw rod external member 350 includes: third nut, is fixed on the left side of lower transposition structure；Third screw rod, is set to down The right side of transposition structure passes through third nut, and the internal screw thread of its external screw thread and third nut matches；Third screw rod is fixed Seat, is fixed on complete machine wallboard, third screw rod bearing is fixed on the inside of third screw rod fixing seat；Third screw drive motor is (not Show), it is set to the upper end of third screw rod, for driving third screw rod to rotate.

By the second screw drive motor of driving and the operation of third screw drive motor, the second screw rod and third screw rod are driven Rotation can drive lower transposition structure 220 to move up and down, and realize the automatic adjustment of lower 220 lengthwise position of transposition structure.

As described above, cold wave equipment may include more than two groups of transposition component, and the number of stretching structure and transposition group The number of part be it is corresponding, if necessary to increase by one transposition component if, it should also increase accordingly one group of stretching structure.

The structure of the present embodiment cold wave equipment has been described in detail above, its course of work has been said below It is bright:

(1) according to the position of pattern on paper B, by upper and lower transposition structure totally four tiltedly leading foil roller is moved to corresponding positions It sets, locks holding screw；

(2) start the first screw drive motor and the 4th screw drive motor, drive the first screw rod 322 and the 4th screw rod 332 control the mobile corresponding position of upper transposition structure 210；

(3) start the second screw drive motor and third screw drive motor, drive the second screw rod 342 and third screw rod 352, which control lower transposition structure 220, is moved to corresponding position, and the length of so every circle of anodized aluminium is just adjusted.

(4) started to wear electrochemical aluminum strip A according to pattern position, one of situation is with regard to as shown in the figure；

(45) start machine.Pattern toughness on paper B, the aluminium layer that the surface electrochemical aluminum strip A has side easily peelable, rolling After cylinder starts rotation, electricity when electrochemical aluminum strip A and paper B pass through the pattern transfering channel between upper roller 102 and bottom roll 101 The aluminium layer changed in aluminum strip is glued according to the pattern on paper.

It can be seen from the figure that the present embodiment cold wave equipment can allow an anodized aluminium circulation to greatly save electrification three times Aluminium.

In second exemplary embodiment of the disclosure, another cold wave equipment is provided.Fig. 4 is according to the disclosure The structural schematic diagram of second embodiment cold wave equipment.The present embodiment cold wave equipment included: foil transfer assembly 100, lateral displacement 300 ' of 200 ' of component and positioning components.

Referring to figure 4., in the present embodiment cold wave equipment, crossing foil transfer assembly 100 includes: 101 He of bottom roll matched Upper roller 102 forms the pattern transfering channel passed through for electrochemical aluminum strip and paper between the two；It is set to pattern transfering channel The preceding of upstream side crosses foil roller 103；It is set to the rear of pattern transfering channel downstream side and crosses foil roller 104.Wherein, bottom roll 101 is by electricity Machine driving, other all foil rollers and the both ends of upper roller crossed are connected with wallboard, can be rotated freely.Each foil roller excessively Function is the progress path for guiding anodized aluminium, and two rollers are used to press electrochemical aluminum strip A and paper B.

In the present embodiment, position 200 ' of lateral displacement component upward in drum shaft for changing anodized aluminium, comprising:

Spacer group was set to the top of foil transfer assembly, comprising: the first spacer 241 and the second spacer 242, two spacers The direction of extension is parallel with the direction that electrochemical aluminum strip is advanced, and both ends are fixed with complete machine wallboard；

Displacement guide rail structure, comprising: the first oblique guide 251 being set on the first spacer；Is set on the second spacer Two oblique guides 252；

First transposition structure 260 and the second transposition structure 270, wherein the first transposition structure 260 realizes electrochemical aluminum strip First time lateral displacement；Second transposition structure 270 realizes second of lateral displacement of electrochemical aluminum strip；

Lead foil roller group, comprising: the 5th crosses foil roller 281, for that will be guided as crossing electrification aluminum strip derived from foil transfer assembly To the first transposition structure or the second transposition structure of corresponding position；4th crosses foil roller 282, for will by the first transposition structure or The electrochemical aluminum strip that second transposition structure carries out lateral displacement was directed to foil transfer assembly again；Wherein, the 5th foil roller 281 is crossed The both ends for crossing foil roller 282 with the 4th are positioned on the complete machine wallboard of the left and right sides.

Respective foil roller group, in the present embodiment, two are led as it can be seen that being different from each transposition structure in first embodiment and having A transposition structure share it is same lead foil roller group, this makes the structure of whole equipment more compact, and failure rate is lower.

Wherein, the first transposition structure 260 further comprises: the first diagonal roll structure 261 and the second diagonal roll structure 262.

Fig. 5 is the structural schematic diagram of the first diagonal roll structure of transposition component in cold wave equipment shown in Fig. 4.Referring to figure 4. and Fig. 5, in the first diagonal roll structure 261, the first left side for tiltedly leading foil roller 261a is fixed on first by cross roll link block 261b and is tiltedly led On the first cross roll sliding block 261c on rail, right side is sliding by the second cross roll that cross roll link block 261d is fixed on the second oblique guide On block 261e.Also, screw is installed on the first cross roll sliding block 261c and the second cross roll link block 261e, for controlling First tiltedly leads foil roller 216a moves in oblique slide rail group.First tiltedly leads the direction in the direction of foil roller 261a and electrochemical aluminum strip traveling In about 45 °.

Second transposition structure 270 further comprises: third diagonal roll structure 271 and the 4th diagonal roll structure 272.Second transposition rolling Structure, third diagonal roll structure and the 4th diagonal roll structure and the first diagonal roll structure structure having the same and mounting means, herein not It repeats again.

It should be noted that two transposition structures are arranged in the present embodiment, but it will be apparent to those skilled in the art that transposition The number of structure can also be adjusted as needed, can be 1,3 or more transposition structures, to realize electrification Aluminum strip more makes full use of.

Every circle electricity is adjusted by the way of adjusting replace component and lower transposition component height different from first embodiment The length for changing aluminum strip, present embodiments provides another regulative mode.

Referring to figure 4., in the present embodiment, 300 ' of positioning components includes:

Positioning guide rail structure, comprising: left rail 361 and right guide rail 362 are separately fixed on the left and right sidesing wall plate of complete machine, two The extending direction of person is parallel with the electrochemical direction of travel of aluminum strip；

Preceding stretching structure, comprising: the first adjustment roll structure 370, both ends are separately fixed on the sliding block of left and right guide rail； 6th crosses foil roller 391, is set to the outside of the first adjustment roll structure 370；

Post-tensioning structure, comprising: second adjustment roll structure 380, both ends are separately fixed on the sliding block of left and right guide rail； Third crosses foil roller 392, is set to the outside of second adjustment roll structure 380；

Wherein, the 6th both ends that foil roller 391 and third cross foil roller 392 excessively are positioned on the complete machine wallboard of the left and right sides, The extension and electrochemical aluminum strip direction of travel that roller is adjusted in the first adjustment roll structure 370 and second adjustment roll structure 380 are hung down Directly.

The first adjustment roll structure 370 and the structure of second adjustment roll structure 380 are similar with mounting means.Hereafter adjusted with first It is illustrated for whole roll structure.

Fig. 6 is the structural schematic diagram of the first adjustment roll structure of positioning components in gold stamping device shown in Fig. 4.Please refer to Fig. 6 And Fig. 4, in the first adjustment roll structure 370, left rail is fixed on by the first link block 372 in the left side of the first adjustment roller 371 On first guide rail slide block 373, right side is connected to the second guide rail of right guide rail by the second link block by the second link block 374 On sliding block 375.Also, there is screw on the first link block and the second link block, the position of the first adjustment roller 371 can be locked It sets.

In 300 ' of the positioning components, the electrification aluminum strip as derived from foil transfer assembly 100 excessively successively bypasses the 6th and crosses foil Transposition structure after the first adjustment roller 371 in roller 391 and the first adjustment roll structure, into transposition component.Therefore, pass through tune Whole the first adjustment roller 371 is in the position of guide rail group, so that it may adjust the anodized aluminium band between foil transfer assembly and transposition structure The length of material.

Similarly, the adjustment in second adjustment roll structure 380 is successively passed through by electrification aluminum strip derived in transposition component Roller and third cross foil roller 392 and then secondary entered foil transfer assembly 100.Therefore, by adjusting second adjustment roll structure 380 Middle adjustment roller is in the position of guide rail group, so that it may adjust transposition structure and cross the length of the electrochemical aluminum strip between foil transfer assembly Degree.

The structure of the present embodiment cold wave equipment has been described in detail above, its course of work has been said below It is bright:

(1) each position for tiltedly leading foil roller in the first transposition structure 260 and the second transposition structure 270 is adjusted according to pattern, Guarantee after electrochemical aluminum strip is wound every time in the axial direction can on paper to gold stamping alignment pattern；

(2) each screw for tiltedly leading foil roller is locked, four positions for tiltedly leading foil roller are fixed；

(3) position for adjusting roller in positioning components in the first adjustment roll structure and second adjustment roll structure is adjusted, adjustment is every The length for enclosing electrochemical aluminum strip guarantees that the part of electrochemical aluminum strip and paper pattern registration has aluminium layer；

(4) starting machine after adjusting, paper B and electrification aluminum strip A are pressed between bottom roll 101 and upper roller 102, and one The continuous circulation pressing of anodized aluminium realizes the function of saving anodized aluminium.

Similarly, it can be seen from the figure that the present embodiment cold wave equipment can allow an anodized aluminium circulation to save significantly three times About anodized aluminium.

So far, attached drawing is had been combined the embodiment of the present disclosure is described in detail.It should be noted that in attached drawing or saying In bright book text, the implementation for not being painted or describing is form known to a person of ordinary skill in the art in technical field, and It is not described in detail.In addition, the above-mentioned definition to each element and method be not limited in mentioning in embodiment it is various specific Structure, shape or mode, those of ordinary skill in the art simply can be changed or be replaced to it, such as:

(1) other than electrochemical aluminum strip, can also be applied in other bands of gold stamping device；

(2) other than paper, other kinds of ribbon stock is equally applicable；

(3) although above-described embodiment is illustrated by taking cold wave equipment as an example, the technical solution of the disclosure can equally be answered For blanching equipment；

According to above description, those skilled in the art should have disclosure gold stamping device clear and completely recognize.

In conclusion the disclosure provides a kind of gold stamping device, by that will pass through anodized aluminium band derived from foil transfer assembly After material is displaced in the axial direction, foil transfer assembly was imported again, so that the utilization again of electrochemical aluminum strip is realized, and And by positioning components, the position of the electrochemical aluminum strip Jing Guo foil transfer assembly, realization front and back are gold stamping twice twice before and after adjustment The adjustment of position improves the utilization efficiency of electrochemical aluminum strip, reduces production cost, while structure is simple, easy to adjust, tool There is stronger application value.

It should also be noted that, the direction term mentioned in embodiment, for example, "upper", "lower", "front", "rear", " left side ", " right side " etc. is only the direction with reference to attached drawing, not is used to limit the protection scope of the disclosure.Through attached drawing, identical element by Same or similar appended drawing reference indicates.When may cause understanding of this disclosure and cause to obscure, conventional structure will be omitted Or construction.

And the shape and size of each component do not reflect actual size and ratio in figure, and only illustrate the embodiment of the present disclosure Content.In addition, in the claims, any reference symbol between parentheses should not be configured to the limit to claim System.

Furthermore word "comprising" does not exclude the presence of element or step not listed in the claims.It is located in front of the element Word "a" or "an" does not exclude the presence of multiple such elements.

The word of ordinal number such as " first ", " second ", " third " etc. used in specification and claim, with modification Corresponding element, itself is not meant to that the element has any ordinal number, does not also represent the suitable of a certain element and another element Sequence in sequence or manufacturing method, the use of those ordinal numbers are only used to enable an element and another tool with certain name Clear differentiation can be made by having the element of identical name.

Similarly, it should be understood that in order to simplify the disclosure and help to understand one or more of each open aspect, Above in the description of the exemplary embodiment of the disclosure, each feature of the disclosure is grouped together into single implementation sometimes In example, figure or descriptions thereof.However, the disclosed method should not be interpreted as reflecting the following intention: i.e. required to protect The disclosure of shield requires features more more than feature expressly recited in each claim.More precisely, as following Claims reflect as, open aspect is all features less than single embodiment disclosed above.Therefore, Thus the claims for following specific embodiment are expressly incorporated in the specific embodiment, wherein each claim itself All as the separate embodiments of the disclosure.

Particular embodiments described above has carried out further in detail the purpose of the disclosure, technical scheme and beneficial effects Describe in detail it is bright, it is all it should be understood that be not limited to the disclosure the foregoing is merely the specific embodiment of the disclosure Within the spirit and principle of the disclosure, any modification, equivalent substitution, improvement and etc. done should be included in the guarantor of the disclosure Within the scope of shield.

Claims (15)

1. a kind of gold stamping device, comprising:

Foil transfer assembly is crossed, is passed through for gold stamping band and stock and by the gold stamping layer of the first area of the pattern on the gold stamping band It is transferred on the stock；And

Lateral displacement component will cross gold stamping band derived from foil transfer assembly along the direction vertical with band direction of travel as described It is directed to the foil transfer assembly excessively again after carrying out lateral displacement, makes on gold stamping band different from first area of the pattern The gold stamping layer of another area of the pattern is transferred on the stock.

2. gold stamping device according to claim 1, the lateral displacement component includes: N number of transposition structure, N≤1；

The transposition structure includes: two and tiltedly leads foil roller, and described two are tiltedly led the setting of foil roller side by side parallel, and the two and band are advanced Direction is in 45 ° of angles.

3. gold stamping device according to claim 2, in the lateral displacement component, N≤2, each transposition structure independently will It is crossed after the progress lateral displacement in direction vertical with band direction of travel of gold stamping band edge derived from foil transfer assembly again as described It is directed to the foil transfer assembly excessively, in which:

The spaced up pre-determined distance in side of N number of transposition structure plane where perpendicular to transposition structure is arranged in parallel；Or

N number of transposition structure is arranged side by side in the same plane.

4. gold stamping device according to claim 3, the lateral displacement component further include: displacement guide rail structure；

The displacement guide rail structure includes: two guide rails arranged side by side, vertical with band direction of travel, described tiltedly to lead foil roller Rear and front end be connected on the sliding block of two guide rails；

Wherein, it is described tiltedly lead foil roller can in the displacement guide rail structure along the square upward sliding vertical with band direction of travel or Position locking.

5. gold stamping device according to claim 4, the lateral displacement component further include: lead foil roller group；

The foil roller group of leading includes: that foil roller is led and foil roller is led in downstream side in the extending direction upstream side vertical with band direction of travel, The two is respectively arranged at described two upstream sides and downstream side for tiltedly leading foil roller, in which:

It leads foil roller and the gold stamping band as derived from the foil transfer assembly excessively is directed to the lateral displacement component in the upstream side In transposition structure；

It leads foil roller and the gold stamping band after the lateral displacement as derived from transposition structure is directed to the transfer of foil excessively in the downstream side Component.

6. gold stamping device according to claim 5, further includes:

Positioning components entered the stroke of foil transfer assembly through lateral displacement component by adjusting gold stamping band, and then adjust and scald The relative position in different pattern region to be transferred on gold ribbon material.

7. gold stamping device according to claim 6, in the lateral displacement component, plane and mistake where the transposition structure Pattern transfering channel in foil transfer assembly is parallel, the direction of N number of transposition structure plane where perpendicular to transposition structure On separate pre-determined distance and be arranged in parallel；

Each transposition structure includes respective displacement guide rail structure and leads foil roller group, the transposition structure further include:

Two spacers, extending direction are vertical with gold stamping band direction of travel；

Wherein, two guide rails of the displacement guide rail structure are respectively arranged on two spacers.

8. gold stamping device according to claim 7, in which:

The transposition structure further include: frame has one first side and a second side, and first side and second side distinguish position In the two sides of band direction of travel；

The positioning components include: positioning guide rail structure, and the positioning guide rail structure includes: to hang down along with plane where transposition structure The first guide rail and the second guide rail that straight direction extends, the two are located at the first side and second side of the transposition structure；

Wherein, the sliding block on first guide rail is fixed in the first side of frame；Second side of frame, which is fixed on described second, to be led Sliding block on rail, the frame can be on the positioning guide rail structures along the square upward sliding vertical with plane where transposition structure Or position locking.

9. gold stamping device according to claim 8, the positioning components further include: N number of stretching structure, respectively to the N Position of one of a transposition structure on the direction vertical with plane where transposition structure is controlled；

Wherein, each stretching structure includes: two screw rod external members, is respectively arranged at the first side and second side of the transposition structure；

The screw rod external member includes:

Nut is fixed on the side of the frame；

Screw rod is set to the side of the frame, passes through the nut, and the internal screw thread of its external screw thread and the nut Match；

Screw rod fixing seat, the screw rod bearing are fixed on the inside of the screw rod fixing seat；And

Screw drive motor, for driving the screw rod to rotate.

10. gold stamping device according to claim 6, in the lateral displacement component, plane where the transposition structure with The pattern transfering channel crossed in foil transfer assembly is parallel, and N number of transposition structure is arranged side by side in the same plane, described N number of Transposition structure shares the displacement guide rail structure and leads foil roller group, and the lateral displacement component includes:

Two spacers, extending direction are vertical with band direction of travel；

Wherein, two guide rails of the displacement guide rail structure are respectively arranged on two spacers, N number of transposition structure The rear and front end for tiltedly leading foil roller is connected on the sliding block of two guide rails.

11. gold stamping device according to claim 10, the positioning components include: preceding stretching structure and/or post-tensioning knot Structure, in which:

The preceding stretching structure includes: that the first adjustment roller and the 6th cross foil roller, and the two extending direction is vertical with band direction of travel, The first adjustment roller can be displaced along band direction of travel or position locks, wherein as crossing gold stamping band derived from foil transfer assembly After material successively bypasses the 6th mistake foil roller and the first adjustment roller, it is directed to transposition structure；

The post-tensioning structure includes: second adjustment roller and third crosses foil roller, and the extending direction and band direction of travel of the two hang down Directly, the second adjustment roller can be displaced along band direction of travel or position locks, wherein the gold stamping band as derived from transposition structure After successively crossing foil roller around second adjustment roller and third, foil transfer assembly was imported.

12. gold stamping device according to claim 11, the positioning components further include:

Two spacers, extending direction are parallel with band direction of travel；

Positioning guide rail structure, comprising: two guide rails being set on the spacer；

Wherein, the both ends of the first adjustment roller and second adjustment roller are individually fixed on the sliding block of two guide rails, the two It can be locked on the positioning guide rail structure along the square upward sliding vertical with band direction of travel or position.

13. gold stamping device according to any one of claim 1 to 12, described to cross foil transfer assembly are as follows: rotary-cutting hot stamping Structure, circle flatten gold stamping structure or the gold stamping structure of platen.

14. gold stamping device according to claim 13, described to cross foil transfer assembly are as follows: rotary-cutting hot stamping structure, comprising:

The bottom roll and upper roller matched forms the pattern transfering channel passed through for gold stamping band and stock between the two；

It is set to the preceding of pattern transfering channel upstream side and crosses foil roller；

It is set to the rear of pattern transfering channel downstream side and crosses foil roller；

Wherein, bottom roll is the roller of actively rotation.

15. gold stamping device according to any one of claim 1 to 12, in which:

The gold stamping device is cold wave equipment；And/or

The gold stamping band is electrochemical aluminum strip；And/or

The stock is paper.