CN105711237A - Printing device for optical fiber cable jackets - Google Patents

Abstract

The invention discloses a printing device for optical fiber cable jackets. The printing device comprises a base, a fixed seat, a tension regulating air cylinder, a hot embossing wheel, ink ribbon mounting reels, a lifting plate and a translation plate, wherein ink ribbons are wound on the ink ribbon mounting reels; the hot embossing wheel and a plurality of pinch rollers are mounted on the front surface of the translation plate; a rotary servomotor for driving the hot embossing wheel to rotate is mounted on the surface, opposite to the hot embossing wheel, of the translation plate; the translation plate is located in front of the lifting plate; two linear rails allowing forward and backward travelling are parallelly arranged on the upper surface of a bottom plate of the lifting plate; two sliding blocks are arranged on the lower surface of the bottom plate of the translation plate; the two linear rails are embedded in the grooves of the two sliding blocks respectively; the tension regulating air cylinder is vertically mounted on the base; a cylinder barrel of the tension regulating air cylinder is fixed on the base; and the tail end of a piston rod of the tension regulating air cylinder is connected to the bottom plate of the lifting plate. The hot embossing device provided by the invention can emboss clear and durable print content on the surface of an optical fiber cable jacket, and the print content is complete, durable and clear; and elastic pressure causes no indentation in the surface of the optical fiber cable jacket, so that the product quality is guaranteed.

Description

Optical fiber cable sheath printing device

Technical field

The present invention relates to a kind of hot stamping device field, particularly relate to a kind of optical fiber cable sheath printing device.

Background technology

The method of domestic market electric wire and cable jacket surface mark content imprints two kinds of methods generally by ink-jet printer spray printing or type wheel single file and is identified.Adopt spray printing form to have the disadvantage that: electric wire jolts through transport, lay the link friction such as pull after very easily the mark content of spray printing is wiped, lettering content adhesive force is poor.Type wheel single file impressing form is adopted to have the disadvantage that: the factors such as position stability when (1) is subject to electric wire roundness, production electric wire restrict, it is easy to occur that lettering is unintelligible；(2) owing to the one-sided stress of electric wire and cable jacket can cause impressing place jacket thickness thinning, even crush and then cause product quality accident；(3) electric wire is actual lay after, as lettering content is laid in lower section, easily cause the phenomenon that electric wire model specification is inconvenient to check.The manufacture of electric wire, payingoff construction and later maintenance are adversely affected by above two form of identification.

Summary of the invention

The present invention provides a kind of optical fiber cable sheath printing device, and this optical fiber cable sheath printing device imprints out clearly durable lettering content on optical fiber cable jacket surface, lettering content intact, persistently, clear；And optical fiber cable jacket surface will not be produced to weigh wounded by elastic pressure, it is ensured that product quality.

For reaching above-mentioned purpose, the technical solution used in the present invention is: a kind of optical fiber cable sheath printing device, including: base, fixing seat, tension adjustment cylinder, hot pressing print-wheel, it is wound with the colour band mounting disc of colour band, lifter plate and translatory plate, about 2 axis of guides arranged that described base upper surface is fixed with, described fixing seat is fixed on the middle part of 2 axis of guides, the leading flank of this fixing seat is horizontally disposed has several to support fast pulley, described lifter plate has about 2 guide pin bushings arranged, it is positioned at the axis of guide above described fixing seat and embeds the guide pin bushing of lifter plate；

Described colour band mounting disc is installed on the front surface of lifter plate, be provided with between this colour band mounting disc and hot pressing print-wheel be fixed on lifter plate or and the guide wheel of translatory plate, the side being positioned at translatory plate on described lifter plate opposing with guide wheel is fixed with one for absorbing the airduct of colour band, described hot pressing print-wheel and several pinch rollers are installed on translatory plate front surface, and surface opposing with hot pressing print-wheel on described translatory plate is provided with a rotating servo motor for driving hot pressing print-wheel to rotate；

Described translatory plate is positioned at the front of lifter plate, and the plate upper surface of described lifter plate is arranged with 2 line rails advanced along the longitudinal direction in parallel, and the base plate lower surface being positioned at translatory plate is provided with 2 slide blocks, and described 2 line rails are respectively embedded in 2 respective grooves of slide block；

The one translation driving mechanism between 2 line rails is installed on lifter plate, described translation driving mechanism includes feed screw nut, the leading screw embedding feed screw nut and traveling motor, described feed screw nut is fixed on translatory plate, described traveling motor is installed on the plate upper surface of lifter plate, described hot pressing print-wheel and several pinch rollers are installed on translatory plate front surface, and region opposing with hot pressing print-wheel on described translatory plate is provided with a rotating servo motor for driving hot pressing print-wheel to rotate；

Described tension adjustment cylinder is installed on base vertically and its cylinder barrel is fixed on base, and the piston-rod end of this tension adjustment cylinder is connected on the base plate of described lifter plate；First, second photographic head is installed on translatory plate front surface and lays respectively at hot pressing print-wheel both sides, and the input of a PLC is connected to described first, second photographic head, and the outfan of this PLC is connected to described rotating servo motor.

In technique scheme, further improvement opportunity scheme is as follows:

1, in such scheme, in the middle part of several pinch rollers described, dividing potential drop wheel is positioned at hot padding wheel side, and all the other pinch rollers are positioned at hot pressing print-wheel opposite side.

2, in such scheme, the pinch roller of described translatory plate is positioned at the surface supporting fast pulley of fixing seat.

3, in such scheme, the number of described guide wheel is 2, and one is fixed on lifter plate and region between hot pressing print-wheel and colour band mounting disc, and another is fixed on translatory plate and region between hot pressing print-wheel and colour band mounting disc.

Owing to technique scheme is used, the present invention compared with prior art has the advantage that

1, optical fiber cable sheath printing device of the present invention, its lifter plate has about 2 guide pin bushings arranged, it is positioned at the axis of guide above described fixing seat and embeds the guide pin bushing of lifter plate, tension adjustment cylinder is installed on base vertically and its cylinder barrel is fixed on base, the piston-rod end of this tension adjustment cylinder is connected on the base plate of described lifter plate, and hot pressing print-wheel is installed on translatory plate front surface；Optical fiber cable jacket surface imprints out clearly durable lettering content, lettering content intact, persistently, clear；And optical fiber cable jacket surface will not be produced to weigh wounded by elastic pressure, ensure product quality, tension adjustment cylinder maintains stable tension force, thus self-adaptative adjustment hot pressing print-wheel and optical fiber cable surface are maintained at an appropriate pressure, the opposing party, make device versatility good, when the diameter of optical fiber cable changes, only regulate tension adjustment cylinder pressure and can set corresponding optimum pressure for different product, support fast pulley can be made to move downward by cylinder action before cable laying line, convenient operation, when the exhaust casing putting line well rises, clamps optical cable；Also detecting the clamping force of cable, the position automatically adjusting cylinder makes structure can be good at stepping up cable.

2, optical fiber cable sheath printing device of the present invention, its translatory plate is positioned at the front of lifter plate, the plate upper surface of described lifter plate is arranged with 2 line rails advanced along the longitudinal direction in parallel, the base plate lower surface being positioned at translatory plate is provided with 2 slide blocks, described 2 line rails are respectively embedded in 2 respective grooves of slide block, the one translation driving mechanism between 2 line rails is installed on lifter plate, described translation driving mechanism includes feed screw nut, embed leading screw and the traveling motor of feed screw nut, described feed screw nut is fixed on translatory plate, described traveling motor is installed on the plate upper surface of lifter plate, described hot pressing print-wheel and several pinch rollers are installed on translatory plate front surface, first, second camera is installed on translatory plate front surface and lays respectively at hot pressing print-wheel both sides, the input of one PLC is connected to described first, second camera, the outfan of this PLC is connected to described rotating servo motor；First, second photographic head is according to obtaining whether the font first imprinted again is positioned at level, obtain side-play amount and feed back to PLC, PLC produces to drive the pulse signal of rotating servo motor further according to side-play amount, so that hot pressing print-wheel produces suitable skew offsets side-play amount, overcome owing to optical fiber cable rotates the defect that the lettering that causes tilts, the distortion of more optical fiber cable can adjust the position of hot pressing print-wheel opposed optical fibers optical cable；Automatic deviation correction, in time there is skew in the position that photographic head finds cable, this signal can be issued servomotor 15 by photographic head, servomotor rotates, due to the link of servo motor shaft front end is screw structure, therefore the rotation of motor can drive 7 and flat board move forward and backward, thus driving 4 heat pressing wheels to carry out having signed movement, to guarantee that correct the carrying out of heat pressing wheel compresses；Automatic error-correcting, lettering is different with the color of cable, therefore time photographic head detects chromatic zones difference, this information can be fed back to control system, reporting to the police occurs in control system, heat pressing wheel except being imprinted on cable is by word, it is also possible to the effective distance controlling lettering, makes product finer；Secondly, its airduct can blow the residue of ink ribbon off.

Accompanying drawing explanation

Accompanying drawing 1 is the main TV structure schematic diagram one of optical fiber cable sheath printing device of the present invention；

Accompanying drawing 2 is the backsight structural representation of accompanying drawing 1；

Accompanying drawing 3 is the main TV structure schematic diagram two of optical fiber cable sheath printing device of the present invention.

In the figures above: 1, base；2, fixing seat；3, tension adjustment cylinder；31, cylinder barrel；32, piston rod；4, hot pressing print-wheel；5, colour band mounting disc；6, lifter plate；61, guide pin bushing；62, base plate；7, translatory plate；8, the axis of guide；9, fast pulley is supported；10, guide wheel；11, airduct；12, rotating servo motor；13, line rail；14, slide block；15, translation driving mechanism；151, feed screw nut；152, leading screw；153, traveling motor；16, pinch roller；17, the first photographic head；18, second camera；19, PLC.

Detailed description of the invention

Below in conjunction with drawings and Examples, the invention will be further described:

Embodiment 1: a kind of optical fiber cable sheath printing device, including: base 1, fixing seat 2, tension adjustment cylinder 3, hot pressing print-wheel 4, it is wound with the colour band mounting disc 5 of colour band, lifter plate 6 and translatory plate 7, about 2 axis of guides 8 arranged that described base 1 upper surface is fixed with, described fixing seat 2 is fixed on the middle part of 2 axis of guides 8, the leading flank of this fixing seat 2 is horizontally disposed has several to support fast pulley 9, described lifter plate 6 has about 2 guide pin bushings 61 arranged, and is positioned at the axis of guide 8 above described fixing seat 2 and embeds the guide pin bushing 61 of lifter plate 6；

Described colour band mounting disc 5 is installed on the front surface of lifter plate 6, be provided with between this colour band mounting disc 5 and hot pressing print-wheel 4 be fixed on lifter plate 6 or and the guide wheel 10 of translatory plate 7, the side being positioned at translatory plate 7 on described lifter plate 6 opposing with guide wheel 10 is fixed with one for absorbing the airduct 11 of colour band, described hot pressing print-wheel 4 and several pinch rollers 16 are installed on translatory plate 7 front surface, and surface opposing with hot pressing print-wheel 4 on described translatory plate 7 is provided with a rotating servo motor 12 for driving hot pressing print-wheel 4 to rotate；

Described translatory plate 7 is positioned at the front of lifter plate 6, base plate 62 upper surface of described lifter plate 6 is arranged with 2 line rails 13 advanced along the longitudinal direction in parallel, base plate 71 lower surface being positioned at translatory plate 7 is provided with 2 slide blocks 14, and described 2 line rails 13 are respectively embedded in 2 respective grooves of slide block 14；

The one translation driving mechanism 15 between 2 line rails 13 is installed on lifter plate 6, described translation driving mechanism 15 includes feed screw nut 151, the leading screw 152 embedding feed screw nut 151 and traveling motor 153, described feed screw nut 151 is fixed on translatory plate 7, described traveling motor 153 is installed on the plate upper surface of lifter plate 6, described hot pressing print-wheel 4 and several pinch rollers 16 are installed on translatory plate 7 front surface, and region opposing with hot pressing print-wheel 4 on described translatory plate 7 is provided with a rotating servo motor 12 for driving hot pressing print-wheel 4 to rotate；

Described tension adjustment cylinder 3 is installed on base 1 vertically and its cylinder barrel 31 is fixed on base 1, and piston rod 32 end of this tension adjustment cylinder 3 is connected on the base plate 62 of described lifter plate 6；First, second photographic head 17,18 is installed on translatory plate 7 front surface and lays respectively at hot pressing print-wheel 4 both sides, the input of one PLC 19 is connected to described first, second photographic head 17,18, the outfan of this PLC 19 is connected to described rotating servo motor 12, first, second photographic head is installed on translatory plate front surface and lays respectively at hot pressing print-wheel both sides, the input of one PLC is connected to described first, second photographic head, and the outfan of this PLC is connected to described rotating servo motor；First, second photographic head is according to obtaining whether the font first imprinted again is positioned at level, obtain side-play amount and feed back to PLC, PLC produces to drive the pulse signal of rotating servo motor further according to side-play amount, so that hot pressing print-wheel produces suitable skew offsets side-play amount.

In the middle part of several pinch rollers 16 above-mentioned, dividing potential drop wheel 16 is positioned at hot pressing print-wheel 4 side, and all the other pinch rollers 16 are positioned at hot pressing print-wheel 4 opposite side.

Embodiment 2: a kind of optical fiber cable sheath printing device, including: base 1, fixing seat 2, tension adjustment cylinder 3, hot pressing print-wheel 4, it is wound with the colour band mounting disc 5 of colour band, lifter plate 6 and translatory plate 7, about 2 axis of guides 8 arranged that described base 1 upper surface is fixed with, described fixing seat 2 is fixed on the middle part of 2 axis of guides 8, the leading flank of this fixing seat 2 is horizontally disposed has several to support fast pulley 9, described lifter plate 6 has about 2 guide pin bushings 61 arranged, and is positioned at the axis of guide 8 above described fixing seat 2 and embeds the guide pin bushing 61 of lifter plate 6；

Described colour band mounting disc 5 is installed on the front surface of lifter plate 6, be provided with between this colour band mounting disc 5 and hot pressing print-wheel 4 be fixed on lifter plate 6 or and the guide wheel 10 of translatory plate 7, the side being positioned at translatory plate 7 on described lifter plate 6 opposing with guide wheel 10 is fixed with one for absorbing the airduct 11 of colour band, described hot pressing print-wheel 4 and several pinch rollers 16 are installed on translatory plate 7 front surface, and surface opposing with hot pressing print-wheel 4 on described translatory plate 7 is provided with a rotating servo motor 12 for driving hot pressing print-wheel 4 to rotate；

Described translatory plate 7 is positioned at the front of lifter plate 6, base plate 62 upper surface of described lifter plate 6 is arranged with 2 line rails 13 advanced along the longitudinal direction in parallel, base plate 71 lower surface being positioned at translatory plate 7 is provided with 2 slide blocks 14, and described 2 line rails 13 are respectively embedded in 2 respective grooves of slide block 14；

The one translation driving mechanism 15 between 2 line rails 13 is installed on lifter plate 6, described translation driving mechanism 15 includes feed screw nut 151, the leading screw 152 embedding feed screw nut 151 and traveling motor 153, described feed screw nut 151 is fixed on translatory plate 7, described traveling motor 153 is installed on the plate upper surface of lifter plate 6, described hot pressing print-wheel 4 and several pinch rollers 16 are installed on translatory plate 7 front surface, and region opposing with hot pressing print-wheel 4 on described translatory plate 7 is provided with a rotating servo motor 12 for driving hot pressing print-wheel 4 to rotate；

Described tension adjustment cylinder 3 is installed on base 1 vertically and its cylinder barrel 31 is fixed on base 1, and piston rod 32 end of this tension adjustment cylinder 3 is connected on the base plate 62 of described lifter plate 6；First, second photographic head 17,18 is installed on translatory plate 7 front surface and lays respectively at hot pressing print-wheel 4 both sides, the input of one PLC 19 is connected to described first, second photographic head 17,18, the outfan of this PLC 19 is connected to described rotating servo motor 12, first, second photographic head is installed on translatory plate front surface and lays respectively at hot pressing print-wheel both sides, the input of one PLC is connected to described first, second photographic head, and the outfan of this PLC is connected to described rotating servo motor；First, second photographic head is according to obtaining whether the font first imprinted again is positioned at level, obtain side-play amount and feed back to PLC, PLC produces to drive the pulse signal of rotating servo motor further according to side-play amount, so that hot pressing print-wheel produces suitable skew offsets side-play amount.

The pinch roller 16 of above-mentioned translatory plate 7 is positioned at the surface supporting fast pulley 9 of fixing seat 2.

The number of above-mentioned guide wheel 10 is 2, and a region being fixed on lifter plate 6 and between hot pressing print-wheel 4 and colour band mounting disc 5, another is fixed on the region on translatory plate 7 and between hot pressing print-wheel 4 and colour band mounting disc 5.

When adopting above-mentioned optical fiber cable sheath printing device, its lifter plate has about 2 guide pin bushings arranged, it is positioned at the axis of guide above described fixing seat and embeds the guide pin bushing of lifter plate, tension adjustment cylinder is installed on base vertically and its cylinder barrel is fixed on base, the piston-rod end of this tension adjustment cylinder is connected on the base plate of described lifter plate, and hot pressing print-wheel is installed on translatory plate front surface；Optical fiber cable jacket surface imprints out clearly durable lettering content, lettering content intact, persistently, clear；And optical fiber cable jacket surface will not be produced to weigh wounded by elastic pressure, ensure product quality, tension adjustment cylinder maintains stable tension force, thus self-adaptative adjustment hot pressing print-wheel and optical fiber cable surface are maintained at an appropriate pressure, the opposing party, make device versatility good, when the diameter of optical fiber cable changes, only regulate tension adjustment cylinder pressure and can set corresponding optimum pressure for different product, support fast pulley can be made to move downward by cylinder action before cable laying line, convenient operation, when the exhaust casing putting line well rises, clamps optical cable；Also detecting the clamping force of cable, the position automatically adjusting cylinder makes structure can be good at stepping up cable；Secondly, its translatory plate is positioned at the front of lifter plate, the plate upper surface of described lifter plate is arranged with 2 line rails advanced along the longitudinal direction in parallel, the base plate lower surface being positioned at translatory plate is provided with 2 slide blocks, described 2 line rails are respectively embedded in 2 respective grooves of slide block, the one translation driving mechanism between 2 line rails is installed on lifter plate, described translation driving mechanism includes feed screw nut, embed leading screw and the traveling motor of feed screw nut, described feed screw nut is fixed on translatory plate, described traveling motor is installed on the plate upper surface of lifter plate, described hot pressing print-wheel and several pinch rollers are installed on translatory plate front surface, first, second camera is installed on translatory plate front surface and lays respectively at hot pressing print-wheel both sides, the input of one PLC is connected to described first, second camera, the outfan of this PLC is connected to described rotating servo motor；First, second photographic head is according to obtaining whether the font first imprinted again is positioned at level, obtain side-play amount and feed back to PLC, PLC produces to drive the pulse signal of rotating servo motor further according to side-play amount, so that hot pressing print-wheel produces suitable skew offsets side-play amount, overcome owing to optical fiber cable rotates the defect that the lettering that causes tilts, the distortion of more optical fiber cable can adjust the position of hot pressing print-wheel opposed optical fibers optical cable；Automatic deviation correction, in time there is skew in the position that photographic head finds cable, this signal can be issued servomotor 15 by photographic head, servomotor rotates, due to the link of servo motor shaft front end is screw structure, therefore the rotation of motor can drive 7 and flat board move forward and backward, thus driving 4 heat pressing wheels to carry out having signed movement, to guarantee that correct the carrying out of heat pressing wheel compresses；Automatic error-correcting, lettering is different with the color of cable, therefore time photographic head detects chromatic zones difference, this information can be fed back to control system, reporting to the police occurs in control system, heat pressing wheel except being imprinted on cable is by word, it is also possible to the effective distance controlling lettering, makes product finer.

Above-described embodiment only for technology design and the feature of the present invention are described, its object is to allow person skilled in the art will appreciate that present disclosure and to implement according to this, can not limit the scope of the invention with this.All equivalences made according to spirit of the invention change or modify, and all should be encompassed within protection scope of the present invention.

Claims (4)

1. an optical fiber cable sheath printing device, it is characterized in that: including: base (1), fixing seat (2), tension adjustment cylinder (3), hot pressing print-wheel (4), it is wound with the colour band mounting disc (5) of colour band, lifter plate (6) and translatory plate (7), about 2 axis of guides (8) arranged that described base (1) upper surface is fixed with, described fixing seat (2) is fixed on the middle part of 2 axis of guides (8), the leading flank of this fixing seat (2) is horizontally disposed has several to support fast pulley (9), described lifter plate (6) has about 2 guide pin bushings (61) arranged, the axis of guide (8) being positioned at described fixing seat (2) top embeds the guide pin bushing (61) of lifter plate (6)；

Described colour band mounting disc (5) is installed on the front surface of lifter plate (6), be provided with between this colour band mounting disc (5) and hot pressing print-wheel (4) be fixed on lifter plate (6) or and the guide wheel (10) of translatory plate (7), the side being positioned at translatory plate (7) on described lifter plate (6) opposing with guide wheel (10) is fixed with one for absorbing the airduct (11) of colour band, described hot pressing print-wheel (4) and several pinch rollers (16) are installed on translatory plate (7) front surface, the surface that described translatory plate (7) is upper and hot pressing print-wheel (4) is opposing is provided with a rotating servo motor (12) for driving hot pressing print-wheel (4) to rotate；

Described translatory plate (7) is positioned at the front of lifter plate (6), base plate (62) upper surface of described lifter plate (6) is arranged with 2 line rails (13) advanced along the longitudinal direction in parallel, base plate (71) lower surface being positioned at translatory plate (7) is provided with 2 slide blocks (14), and described 2 line rails (13) are respectively embedded in 2 respective grooves of slide block (14)；

The one translation driving mechanism (15) being positioned between 2 line rails (13) is installed on lifter plate (6), described translation driving mechanism (15) includes feed screw nut (151), the leading screw (152) embedding feed screw nut (151) and traveling motor (153), described feed screw nut (151) is fixed on translatory plate (7), and described traveling motor (153) is installed on the plate upper surface of lifter plate (6)；

Described tension adjustment cylinder (3) is installed on base (1) vertically and its cylinder barrel (31) is fixed on base (1), and piston rod (32) end of this tension adjustment cylinder (3) is connected on the base plate (62) of described lifter plate (6)；First, second photographic head (17,18) is installed on translatory plate (7) front surface and lays respectively at hot pressing print-wheel (4) both sides, the input of one PLC (19) is connected to described first, second photographic head (17,18), and the outfan of this PLC (19) is connected to described rotating servo motor (12).

2. optical fiber cable sheath printing device according to claim 1, it is characterised in that: described several pinch rollers (16) middle part dividing potential drop wheel (16) are positioned at hot pressing print-wheel (4) side, and all the other pinch rollers (16) are positioned at hot pressing print-wheel (4) opposite side.

3. optical fiber cable sheath printing device according to claim 1, it is characterised in that: the pinch roller (16) of described translatory plate (7) is positioned at the surface of the support fast pulley (9) of fixing seat (2).

4. optical fiber cable sheath printing device according to claim 1, it is characterized in that: the number of described guide wheel (10) is 2, one is fixed on lifter plate (6) and above and is positioned at the region between hot pressing print-wheel (4) and colour band mounting disc (5), and another is fixed on translatory plate (7) and above and is positioned at the region between hot pressing print-wheel (4) and colour band mounting disc (5).