CN103407730A - Feeding device of lamp tube printer - Google Patents

Abstract

The invention provides a feeding device of a lamp tube printer, belongs to the technical field of lamp tube production equipment, and solves the problem that the conventional lighting tube printer has the defects that the feeding wastes labor and the production efficiency is low. The feeding device comprises an upper rotating shaft and a lower rotating shaft, wherein a chain I is arranged at the left ends of the upper rotating shaft and the lower rotating shaft, and a chain II is arranged at the right ends of the upper rotating shaft and the lower rotating shaft; a plurality of conveying plates with openings are fixed between the chain I and the chain II; each opening is formed in the end, far away from the chain I, of each conveying plate; the upper rotating shaft is also connected with a power mechanism which can drive the upper rotating shaft to rotate. The feeding device provided by the invention can automatically feed lamp tubes for the conveying device of the lamp tube printer, and is high in degree of automation.

Description

A kind of pay-off of fluorescent tube chopping machine

Technical field

The invention belongs to fluorescent tube production facilities technical field, relate to a kind of pay-off of fluorescent tube chopping machine.

Background technology

Lamp is indispensable life necessary article in life, kind is various, as daylight lamp, it is exactly family's lamps and lanterns commonly used, daylight lamp generally comprises the components and parts such as barretter, starter, fluorescent tube, respectively there is a filament at the daylight lamp two ends, in fluorescent tube, are filled with micro-argon and thin mercury vapour, on tube inner wall, scribble fluorescent material, during gaseous conduction between two filaments, send ultraviolet ray, make fluorescent material send soft visible light.Fluorescent tube generally adopts the strip pipe, all can be printed with the font that some comprise daylight lamp information at an end outside face of fluorescent tube.

Because lamp tube wall is thin, easily broken, typewriting has certain difficulty on tube outer wall, generally adopt and first make die at present, then up print, the mechanically spraying of employing mode is also arranged certainly, but fluorescent tube needs high efficiency mass processing in process of production, need to reduce manual operation as far as possible, therefore the fluorescent tube chopping machine has appearred, the fluorescent tube chopping machine has feedway and type printer, fluorescent tube is laid on feedway, when being transported to the type printer place, print, if but the transfer of fluorescent tube from rack to feedway is by carrying out manually, not only lavish labor on, and production efficiency is low.

Summary of the invention

The objective of the invention is to have the problems referred to above for existing technology, proposed a kind of pay-off of fluorescent tube chopping machine, the pay-off of this fluorescent tube chopping machine can be that the feedway of chopping machine is carried fluorescent tube automatically, and degree of automation is high.

Purpose of the present invention can realize by following technical proposal: a kind of pay-off of fluorescent tube chopping machine, the fluorescent tube chopping machine comprises frame, one side of frame is fixed be used to placing the rack of fluorescent tube, on described frame opposite side, be fixed with the finished product frame of printing rear fluorescent tube be used to placing, between rack and finished product frame, be provided with feedway, described pay-off is arranged on the frame between rack and feedway, it is characterized in that, described pay-off comprises axial restraint and the upper rotating shaft and the lower rotary shaft that circumferentially rotate, described upper rotating shaft and lower rotary shaft are parallel to each other, on the two ends of described upper rotating shaft, be fixed with respectively and cog one and cog two, on the two ends of described lower rotary shaft, be fixed with respectively with described and cog one and two corresponding lower gear one and the lower gears two that cog, described cog one and lower gear one between chain one is set, described cog two and lower gear two between chain two is set, between described chain one and chain two, be fixed with some delivery boards with opening, described opening is opened in the end of delivery board away from chain one, described upper rotating shaft also is connected with an actuating unit that can drive its rotation.

Upper rotating shaft and lower rotary shaft all are rotatably connected on frame, it rotates and drives chain one and chain two motions, delivery board on chain one and chain two is along with motion, what unprinted fluorescent tube was parallel to each other is deposited on rack and presses to delivery board, delivery board has opening, and opening is the end away from chain one, therefore run to when relative with fluorescent tube on rack when delivery board, fluorescent tube can roll in delivery board, under the effect of actuating unit one, chain one and chain two move to feedway two with delivery board, thereby realize the automation feeding, degree of automation is high.

In the pay-off of above-mentioned fluorescent tube chopping machine, described actuating unit comprises stepping motor, driving gear, driven gear and the chain drive-belt be fixed on frame, described driven gear is fixed on above-mentioned upper roller end place, described driving gear is fixed on the output shaft of above-mentioned stepping motor, and described chain drive-belt is arranged between driving gear and driven gear.Stepping motor drives driving gear and rotates, driving gear drives driven gear by chain drive-belt and rotates, because driven gear is fixed on upper roller end, therefore can drive rotating shaft rotates, thereby realized the running of pay-off, the chain gear good stability, and from the different numbers of teeth of driven gear, realize speed change by driving gear.

In the pay-off of above-mentioned fluorescent tube chopping machine, described some delivery boards are strip, and are parallel to each other, and the cross-sectional plane of described delivery board takes the shape of the letter U, and the base plate two ends of delivery board are separately fixed on chain one and chain two.The delivery board of U-shaped has cavity, and this cavity just can hold a fluorescent tube, and when the opening of this cavity and heap are pressed in fluorescent tube on rack when relative, fluorescent tube rolls into delivery board.

In the pay-off of above-mentioned fluorescent tube chopping machine, described rack is fixed on frame, have a placed side tilted, described height away from the lower rotary shaft placed side is higher than the height of the placed side near lower rotary shaft, and the distance between rack and contiguous delivery board is less than the external diameter of fluorescent tube.Due to the height of the height away from the lower rotary shaft placed side higher than the placed side near lower rotary shaft, therefore the fluorescent tube of heap pressure can press to delivery board all the time, and the distance between rack and contiguous delivery board is less than the external diameter of fluorescent tube, make rack neither can disturb the running of delivery board, fluorescent tube can be from not falling down both gaps yet.

In the pay-off of above-mentioned fluorescent tube chopping machine, on the frame of described upper rotating shaft top, also be fixed with mounting rod, on described mounting rod, be fixed with the pilot bar that the interior fluorescent tube of opening that can guide delivery board enters feedway.The length direction of mounting rod is consistent with the length direction of fluorescent tube, and pilot bar avoids the fluorescent tube on delivery board to drop.

In the pay-off of above-mentioned fluorescent tube chopping machine, described pilot bar is L-type, and described pilot bar one end is fixed on above-mentioned mounting rod, and the pilot bar other end is near contiguous delivery board opening.Mounting rod is parallel with delivery board, and pilot bar is vertical with mounting rod, on frame, also be fixed with the plate that connects material, the end of plate of connecting material can dock with feedway, distance between the delivery board opening of the other end and vicinity is less than the external diameter of fluorescent tube, and the pilot bar free end also is less than the external diameter of fluorescent tube with the distance of the delivery board opening of vicinity, so fluorescent tube is entering on the plate that connects material and along the plate that connects material and is rolling into feedway under the effect of pilot bar.

Compared with prior art, the pay-off of this fluorescent tube chopping machine has the following advantages:

1, owing to when delivery board, running to when relative with fluorescent tube on rack, fluorescent tube can roll in delivery board, and under the effect of actuating unit one, chain one and chain two move to feedway two with delivery board, thereby realize the automation feeding, so degree of automation is high.

2, because rack is fixed on frame, have a placed side tilted, therefore run to when relative with fluorescent tube on rack when delivery board, fluorescent tube can roll in delivery board.

The accompanying drawing explanation

Fig. 1 is the perspective view of this fluorescent tube chopping machine.

Fig. 2 is the local structure cutaway view of the pay-off of fluorescent tube chopping machine.

In figure, 1, frame; 2, rack; 3, feedway; 4, finished product frame; 5, upper rotating shaft; 51, cog one; 52, cog two; 6, lower rotary shaft; 61, lower gear one; 62, lower gear two; 7, chain one; 8, chain two; 9, delivery board; 10, actuating unit; 101, stepping motor; 102, driven gear; 103, chain drive-belt; 201, mounting rod; 202, pilot bar.

The specific embodiment

Be below specific embodiments of the invention by reference to the accompanying drawings, technical scheme of the present invention is further described, but the present invention be not limited to these embodiment.

As shown in Figure 1 and Figure 2, a kind of pay-off of fluorescent tube chopping machine, the fluorescent tube chopping machine comprises frame 1 and type printer, on frame 1 one sides, be fixed with rack 2, this rack 2 is used for placing unprinted fluorescent tube, on frame 1 opposite side, be fixed with finished product frame 4, this finished product frame 4 is used for placing the fluorescent tube after printing.Between rack 2 and finished product frame 4, be provided with successively pay-off and feedway 3.

Specifically, pay-off comprises axial restraint and the upper rotating shaft 5 and the lower rotary shaft 6 that circumferentially rotate, upper rotating shaft 5 and lower rotary shaft 6 are parallel to each other, on the two ends of upper rotating shaft 5, be fixed with respectively and cog one 51 and cog 2 52, on the two ends of lower rotary shaft 6, be fixed with respectively lower gear 1 and lower gear 2 62, cog 1 and lower gear 1 between chain 1 is set, cog 2 52 and lower gear 2 62 between chain 28 is set, between chain 1 and chain 28, be fixed with some delivery boards 9 with opening, opening is opened in the end of delivery board 9 away from chain 1, upper rotating shaft 5 also is connected with an actuating unit 10 that can drive its rotation.Actuating unit 10 comprises stepping motor 101, driving gear, driven gear 102 and the chain drive-belt 103 be fixed on frame, driven gear 102 is fixed on above-mentioned upper rotating shaft 5 ends, driving gear is fixed on the output shaft of above-mentioned stepping motor 101, and chain drive-belt 103 is arranged between driving gear and driven gear 102.Delivery board 9 is strip, and be parallel to each other, the cross-sectional plane of delivery board 9 takes the shape of the letter U, the base plate two ends of delivery board 9 are separately fixed on chain 1 and chain 28, the delivery board 9 of U-shaped has cavity, this cavity just can hold a fluorescent tube, and when the opening of this cavity and heap are pressed in fluorescent tube on rack 2 when relative, fluorescent tube rolls into delivery board 9.Rack 2 is fixed on frame 1, has a placed side tilted, away from the height of the lower rotary shaft 6 placed sides height higher than the placed side near lower rotary shaft 6, and the distance between rack 2 and contiguous delivery board 9 is less than the external diameter of fluorescent tube, due to the height of the height away from lower rotary shaft 6 placed sides higher than the placed side near lower rotary shaft 6, therefore the fluorescent tube of heap pressure can press to delivery board 9 all the time, and the distance between rack 2 and contiguous delivery board 9 is less than the external diameter of fluorescent tube, make rack 2 neither can disturb the running of delivery board 9, fluorescent tube can be from not falling down both gaps yet.On the frame 1 of upper rotating shaft 5 tops, also be fixed with mounting rod 201, on mounting rod 201, be fixed with the pilot bar 202 that the interior fluorescent tube of opening that can guide delivery board 9 enters feedway 3, pilot bar 202 is L-type, described pilot bar 202 1 ends are fixed on above-mentioned mounting rod 201, and pilot bar 202 other ends are near contiguous delivery board 9 openings.

Feedway 3 comprises conveying axis one and the conveying axis two be parallel to each other, conveying axis one and conveying axis two all are rotatably connected on frame 1 and axial restraint, on the two ends of conveying axis one, be fixed with respectively conveyance gear one and conveyance gear two, on the two ends of conveying axis two, be fixed with respectively conveyance gear three and conveyance gear four, between conveyance gear one and conveyance gear three, chain three is set, between conveyance gear two and conveyance gear four, chain four is set, on the chain link of chain three, be fixed with some banking stops one, on the chain link of chain four, be fixed with some banking stops corresponding with banking stop one two, between two adjacent banking stops one, has gap one, between two adjacent banking stops two, has gap two, the two ends that relative Yi Yu gap, gap two is used for respectively placing fluorescent tube, between the chain link of chain three and banking stop one, fix by fixed plate one, the lower end of fixed plate one is fixed on the chain link of chain three by the mode of welding, banking stop one offers some knock holees one from top to bottom, on fixed plate one, offer fixed orifice one, fixed orifice one and one of them knock hole one coordinate banking stop one are fixed on fixed plate one by bolt, between the chain link of chain four and banking stop two, fix by fixed plate two, the lower end of fixed plate two is fixed on the chain link of chain four by the mode of welding, banking stop two offers some knock holees two from top to bottom, on fixed plate two, offer fixed orifice two, fixed orifice two and one of them knock hole two coordinate banking stop two are fixed on fixed plate two by bolt, banking stop one is fixed on chain three by fixed plate one, banking stop two is fixed on chain four by fixed plate two, owing on fixed plate one and fixed plate two, offering respectively some knock holees one and knock hole two, by fixed orifice one, be connected from different knock hole one and knock hole two with fixed orifice two, realize the height adjusting of banking stop one and banking stop two.Conveying axis one also is connected with an actuating unit two that can drive its rotation, actuating unit two comprises the stepping motor two be fixed on frame, driving gear two, driven gear two and chain drive-belt two, driven gear two is fixed on conveying axis one end, driving gear two is fixed on the output shaft of stepping motor two, chain drive-belt two is arranged between driving gear two and driven gear two, stepping motor two drives driving gear two and rotates, overdrive chain two of driving gear two-way drives driven gear two rotations, because driven gear two is fixed on conveying axis one end, therefore can drive conveying axis one rotation, thereby realized the running of feedway 3, the chain gear good stability, and from the different numbers of teeth of driven gear two, realize speed change by driving gear two.Conveying axis one closes on rotating shaft 5, and the height of conveying axis one is between the height of the height of rotating shaft 5 and lower rotary shaft 6.

Type printer is arranged on the frame 1 of feedway 3 tops, comprise a printhead and a lift cylinder, printhead is fixed on the piston rod end of lift cylinder, on frame 1, also be fixed with guide rail, the length direction of guide rail is consistent with the length direction of fluorescent tube, on guide rail, slidably connect a slide block, lift cylinder is being fixed on slide block down vertically, slide block and one can drive slide block and be connected along the driver train that guide rail moves reciprocatingly, driver train and lift cylinder all with a PLC Programmable Logic Controller connection.Printhead can be in the typewriting of fluorescent tube outside face, and it is fixed on the piston rod end of lift cylinder, and the piston rod of lift cylinder arranges straight down, so lift cylinder can be realized the height of printhead is regulated; Driver train is connected on slide block, and guide rail is consistent with the length direction of fluorescent tube, slide block can move along guide rail under the effect of driver train, therefore can realize the position adjustments of printhead on the fluorescent tube length direction, and driver train all is connected with the PLC Programmable Logic Controller with lift cylinder, intelligent degree is high.Guide rail comprises two round bars that parallel, and on slide block, offers two through holes, and the round bar sliding plug is in through hole, and the slide block upper side offers a through hole, and this through hole is between two through holes, and lift cylinder is vertically pegged graft and is fixed in through hole.Driver train comprises that one is fixed on the mobile cylinder on frame, and the flexible direction of mobile cylinder is consistent with the length direction of guide rail, and the piston rod of mobile cylinder is connected mutually with slide block.On frame, also be fixed with a pressure holding cylinder, the piston rod of pressure holding cylinder straight down and towards fluorescent tube, is fixed be used to pushing down the pressure holding head of fluorescent tube on the piston rod of pressure holding cylinder, and the pressure holding head adopts elastomeric material to make.Pressure holding air cylinder driven pressure holding head moves downward and compresses fluorescent tube, prevent that displacement from appearring in fluorescent tube when printing, cause typing position inaccurate, after fluorescent tube is stablized by pressure holding, printhead is typewrited to the predeterminated position of fluorescent tube outside face, a printed rear pressure holding air cylinder driven pressure holding upward movement is away from fluorescent tube, and the pressure holding head of elastomeric material can play buffer action.The PLC Programmable Logic Controller is connected with mobile cylinder and pressure holding cylinder by circuit, and unified control makes the cooperation that mutually cooperates of lift cylinder, mobile cylinder and pressure holding cylinder.On frame 1, be fixed with the oven dry lamp, dry lamp and be in feedway 3 tops between printhead and finished product frame 4, fluorescent tube continues mobile after below printhead, stamping font, in the time of below through the oven dry lamp, dry lamp the font printed thereon is carried out to drying and processing, avoid fluorescent tube to enter after finished product frame 4 to be in contact with one another and cause font to be smeared flower.

Finished product frame 4 comprises stay bearing plate one, place bar one, place bar two and stay bearing plate two, stay bearing plate one and stay bearing plate two all are fixed on frame, stay bearing plate one closes on conveying axis two, and the height of stay bearing plate one is identical with the height of conveying axis two, stay bearing plate one is between stay bearing plate two and conveying axis two, the height of stay bearing plate two is lower than the height of stay bearing plate one, placing an end of bar one and an end of placement bar two is fixed on stay bearing plate one, and the end of placing the end of bar one and placing bar two is between the flank of tooth of the flank of tooth of conveyance gear one and conveyance gear three, placing the other end of bar one and the other end of placement bar two is fixed on stay bearing plate two, and place the other end of bar one and place on the other end of bar two and be fixed with respectively the anti-drop rod perpendicular with placing bar one one and the perpendicular anti-drop rod two with placing bar two, on anti-drop rod one and anti-drop rod two, be arranged with respectively rubber coating one and rubber coating two, can be along placing bar one and placing bar two and roll after fluorescent tube has arrived placement bar one and placed on bar two, until clash into anti-drop rod one and anti-drop rod two, rubber coating one and rubber coating two can play buffer action, while avoiding fluorescent tube to clash into, break.Place bar one and place bar two and also be provided with the fail-safe structure that can prevent that fluorescent tube breaks away from, fail-safe structure comprises some cross bars and some montants, cross bar is fixed on the place, bottom of placing bar one and placing bar two, the length of cross bar is greater than places bar one and places the distance between bar two, montant vertically is fixed on the two ends of cross bar, between every two montants, all be fixed with grille guard, cross bar is perpendicular to placing bar one and placing bar two, be used for fixing montant, due to the length of cross bar, be greater than the distance of placing between bar one and placement bar two, therefore the montant of its end lays respectively at the outside of placing bar one and placing bar two, grille guard is fixed on same row's montant, and the mesh aperture of grille guard is less than the external diameter of fluorescent tube, when fluorescent tube, occur departing from rolling process, grille guard can be avoided fluorescent tube to drop and place bar one and placement bar two.

Between upper rotating shaft 5 and conveying axis one, be provided with and the fluorescent tube in Yi He gap, gap two can be arranged to the dressing mechanism flushed, dressing mechanism comprises the arrangement cylinder, arrange head and travel switch, arranging cylinder is fixed on frame 1, the flexible direction that arranges the piston rod of cylinder parallels with the axial direction of conveying axis one, arranging head adopts elastomeric material to make, arrange the end that head is fixed on the piston rod that arranges cylinder, arrange the outside that head is between rotating shaft 5 and conveying axis one and is positioned at chain three, travel switch is fixed on frame 1, travel switch is on the same straight line with the flexible direction of the piston rod that arranges cylinder, form switch between upper rotating shaft and conveying axis one and be positioned at the outside of chain four, arranging cylinder all is connected with the PLC Programmable Logic Controller by circuit with travel switch, arranging head and travel switch all is between rotating shaft 5 and conveying axis one, be that fluorescent tube is once from delivery board 9, entering between Yi He gap, gap two and can be organized, the flexible direction that arranges the piston rod of cylinder parallels with the axial direction of conveying axis one, arranging head pushing away fluorescent tube under the effect that arranges cylinder a end moves along self length direction, owing to arranging head, adopt elastomeric material to make, therefore can not cause the collision injury to fluorescent tube, until the other end of fluorescent tube contacts with travel switch, travel switch is carried signal to the PLC Programmable Logic Controller, the PLC Controlled by Programmable Controller arranges cylinder and oppositely moves, and wait for next fluorescent tube, so make the axial location of every fluorescent tube certain.

What unprinted fluorescent tube was parallel to each other is deposited on rack 2, and the placed side of rack 2 is obliquely installed, and the close pay-off of a lower end, so light can press to pay-off, on pay-off, the cross section of delivery board 9 takes the shape of the letter U, and opening is the end away from chain 1, therefore run to when relative with fluorescent tube on rack 2 when delivery board 9, fluorescent tube can roll in delivery board 9 voluntarily, under the effect of actuating unit 10, chain 1 and chain 28 move to feedway 3 with delivery board 9, conveying axis one with conveying axis two, parallel and level height the same, banking stop one is fixed on chain three, banking stop two is fixed on chain four, gap between every adjacent two banking stops one is slightly larger than the external diameter of fluorescent tube, gap between same every adjacent two banking stops two also is slightly larger than the external diameter of fluorescent tube, during gap alignment between the opening of delivery board 9 and adjacent banking stop one, because this delivery board 9 will remain in operation, fluorescent tube on this delivery board 9 is under the effect of pilot bar 202, one end of fluorescent tube enters into the gap between adjacent banking stop one, the other end enters into the gap between adjacent banking stop two, so just completed fluorescent tube by the course of conveying of rack 2 to feedway 3, under the effect of actuating unit two, chain three and the chain four-tape banking stop one and are moved with banking stop two, and banking stop one is being carried the fluorescent tube parallel motion secretly with banking stop two, type printer is arranged on frame 1, and wherein printhead can be in the typewriting of fluorescent tube outside face, and it is fixed on the piston rod end of lift cylinder, and the piston rod of lift cylinder arranges straight down, so lift cylinder can be realized the height of printhead is regulated, lift cylinder is fixed on slide block, and guide rail is consistent with the direction of conveying axis one, namely consistent with the length direction of the fluorescent tube be printed, slide block can move along guide rail under the effect of mobile cylinder, therefore can realize the position adjustments of printhead on the fluorescent tube length direction, when fluorescent tube when the effect of chain three and chain four is moved to below printhead, pressure holding air cylinder driven pressure holding head on frame 1 moves downward and compresses fluorescent tube, prevent that displacement from appearring in fluorescent tube when printing, cause typing position inaccurate, after fluorescent tube is stablized by pressure holding, printhead is typewrited to the predeterminated position of fluorescent tube outside face, a printed rear pressure holding air cylinder driven pressure holding upward movement is away from fluorescent tube, fluorescent tube continues mobile, and adjacent fluorescent tube continues to enter into the below of printhead, what so continue carries out the batch typewriting to fluorescent tube, printed fluorescent tube continues to move to finished product frame 4, the placement bar one of finished product frame 4 is mutually parallel with placement bar two, and two ends are separately fixed on stay bearing plate one and stay bearing plate two, because stay bearing plate one closes on conveying axis two highly identical with conveying axis two, and the height of stay bearing plate two is lower than the height of stay bearing plate one, therefore place bar one and place bar two inclinations, place bar one and place bar two perpendicular to conveying axis two, and place bar one and place the flank of tooth that bar two Jiao Gaode ends, position are in conveyance gear one and the flank of tooth of conveyance gear three between, therefore when moving to the top of placing bar one and placing bar two ends, fluorescent tube is blocked, and chain three and chain four can remain in operation, therefore fluorescent tube breaks away from chain three and chain four and has stayed placement bar one and placed on bar two, owing to placing bar one and placing bar two and tilt, fluorescent tube is along placing bar one and placing bar two and rolled to a lower end by a higher end, and place the lower end end of bar one, be fixed with anti-drop rod one, place the lower end end of bar two and be fixed with anti-drop rod two, and it is perpendicular with anti-drop rod one to place bar one, place bar two perpendicular with anti-drop rod two, and the length of anti-drop rod one and anti-drop rod two is greater than the twice of fluorescent tube external diameter, when therefore fluorescent tube is rolled to the end of placing bar one and placing bar two, stopped by anti-drop rod one and anti-drop rod two, so just completed fluorescent tube by the transfer of feedway to finished product frame 4, due to lift cylinder, mobile cylinder, stepping motor one all is connected with this PLC Programmable Logic Controller by circuit with stepping motor two, the staff only need take off the fluorescent tube on finished product frame 4 to get final product, whole operation process is controlled by control system, the typewriting process full automation of whole fluorescent tube, intelligent, and can realize mass, therefore production efficiency is high, and saved labour power.

Specific embodiment described herein is only to the explanation for example of the present invention's spirit.Those skilled in the art can make various modifications or supplement or adopt similar mode to substitute described specific embodiment, but can't depart from spirit of the present invention or surmount the defined scope of appended claims.

Although this paper has more been used the terms such as frame 1, rack 2, feedway 3, finished product frame 4, upper rotating shaft 5, do not get rid of the possibility of using other term.Using these terms is only in order to describe more easily and explain essence of the present invention; They are construed to any additional restriction is all contrary with spirit of the present invention.

Claims (6)

1. the pay-off of a fluorescent tube chopping machine, the fluorescent tube chopping machine comprises frame (1), one side of frame (1) is fixed with the rack (2) be used to placing fluorescent tube, on described frame (1) opposite side, be fixed with the finished product frame (4) of printing rear fluorescent tube be used to placing, between rack (2) and finished product frame (4), be provided with feedway (3), described pay-off is arranged on the frame (1) between rack (2) and feedway (3), it is characterized in that, described pay-off comprises axial restraint and the upper rotating shaft (5) and the lower rotary shaft (6) that circumferentially rotate, described upper rotating shaft (5) and lower rotary shaft (6) are parallel to each other, on the two ends of described upper rotating shaft (5), be fixed with respectively and cog one (51) and cog two (52), on the two ends of described lower rotary shaft (6), be fixed with respectively with described and cog one (51) and two (52) corresponding lower gear one (61) and the lower gears two (62) that cog, described cog one (51) and lower gear one (61) between chain one (7) is set, described cog two (52) and lower gear two (62) between chain two (8) is set, between described chain one (7) and chain two (8), be fixed with some delivery boards (9) with opening, described opening is opened in the end of delivery board (9) away from chain one (7), described upper rotating shaft (5) also is connected with an actuating unit (10) that can drive its rotation.

2. the pay-off of fluorescent tube chopping machine according to claim 1, it is characterized in that, described actuating unit (10) comprises stepping motor (101), driving gear, driven gear (102) and the chain drive-belt (103) be fixed on frame (1), described driven gear (102) is fixed on above-mentioned upper rotating shaft (5) end, described driving gear is fixed on the output shaft of above-mentioned stepping motor (101), and described chain drive-belt (103) is arranged between driving gear and driven gear (102).

3. the pay-off of fluorescent tube chopping machine according to claim 2, it is characterized in that, described some delivery boards (9) are strip, and be parallel to each other, the cross-sectional plane of described delivery board (9) takes the shape of the letter U, and the base plate two ends of delivery board (9) are separately fixed on chain one (7) and chain two (8).

4. the pay-off of fluorescent tube chopping machine according to claim 3, it is characterized in that, described rack (2) is fixed on frame (1), has a placed side tilted, described height away from lower rotary shaft (6) placed side is higher than the height of the placed side near lower rotary shaft (6), and the distance between rack (2) and contiguous delivery board (9) is less than the external diameter of fluorescent tube.

5. according to the pay-off of the described fluorescent tube chopping machine of claim 3 or 4, it is characterized in that, on the frame (1) of described upper rotating shaft (5) top, also be fixed with mounting rod (201), on described mounting rod (201), be fixed with the pilot bar (202) that the interior fluorescent tube of opening that can guide delivery board (9) enters feedway (3).

6. the pay-off of fluorescent tube chopping machine according to claim 5, it is characterized in that, described pilot bar (202) is L-type, and it is upper that described pilot bar (202) one ends are fixed on above-mentioned mounting rod (201), and pilot bar (202) other end is near contiguous delivery board (9) opening.

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