CN203580231U - Paper product bonding servo correction system for paper pack machine and cover making machine - Google Patents

Paper product bonding servo correction system for paper pack machine and cover making machine Download PDF

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Publication number
CN203580231U
CN203580231U CN201320610946.0U CN201320610946U CN203580231U CN 203580231 U CN203580231 U CN 203580231U CN 201320610946 U CN201320610946 U CN 201320610946U CN 203580231 U CN203580231 U CN 203580231U
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motion bar
rod
servomotor
bushing
screw
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CN201320610946.0U
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Chinese (zh)
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陈桢粦
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陈桢粦
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Abstract

The utility model relates to the technical field of paper product processing equipment, and specifically relates to a paper product bonding servo correction system for a paper pack machine and a cover making machine. The correction system comprises a rack, wherein the rack is provided with a left moving bar and a right moving bar, a linear sliding rail is arranged between the left moving bar and the right moving bar, the linear sliding bar is connected with a first left sliding block, a second left sliding block, a first right sliding block and a second right sliding block in a sliding manner, and the left moving bar and the right moving bar are respectively connected with the second left sliding block and the second right sliding block; the rack is provided with a left servo motor and a right servo motor, the spindle of the left servo motor is connected with a left moving component connected with the first left sliding block; the spindle of the right servo motor is connected with a right moving component connected with the first right sliding block; and a lower servo motor is arranged on the rack, and the spindle of the lower servo motor is connected with a lower moving component connected with a linear sliding rail. The paper product bonding servo correction system is simple in structure, very precise in control speed and position precision, very good in correction effect, and realizes digital control.

Description

The bonding servo deviation-rectifying system of world box machine and cover machine paper product
Technical field
The utility model relates to paper product technical field of processing equipment, relates in particular to the bonding servo deviation-rectifying system of world box machine and cover machine paper product.
Background technology
General box (comprises box for moon-cake, box of mobile telephone, gift box etc.) be all to manufacture by full-automatic world box machine or automatic cover machine, by full-automatic world box machine or automatically cover machine by bonding or be fitted and connected to the cardboard of box and facial tissue, and a qualified box, its cardboard with after facial tissue bonding connection not only sideline size need to align, but manufacture in box process in actual production, because cardboard need to be through one section of fed distance, when cardboard is positioned on facial tissue, due to error, cause unavoidably cardboard and facial tissue misalignment, cause the facial tissue of the box of manufacturing out to occur tilting, therefore, for guaranteeing to manufacture out qualified box, full-automatic world box machine or automatically cover machine are all set up a set of system of specially cardboard or carton being carried out positional deviation correction, but this of prior art kind of deviation-rectifying system all adopts hydraulic cylinder or other power drives, whole mechanism is comparatively complicated, controlling organization action easily causes mechanism's stuck phenomenon of " fighting ".
Utility model content
The purpose of this utility model is to provide a kind of employing digital control for the deficiencies in the prior art, and overall structure is simple, practical world box machine and the bonding servo deviation-rectifying system of cover machine paper product reliably.
For achieving the above object, the bonding servo deviation-rectifying system of the world of the present utility model box machine and cover machine paper product, comprises frame, and the both sides of described frame top are respectively arranged with left motion bar and right motion bar;
The front end of described left motion bar and the front end of right motion bar are provided with linear slide rail, linear slide rail slips the first left slider, the second left slider, the first right slide block and the second right slide block, and left motion bar, right motion bar are connected with the second left slider, the second right slide block respectively;
The both sides of described frame top are also respectively arranged with left servomotor and the right servomotor for driving linear slide rail transverse shifting or angular deflection, and the main shaft of left servomotor is connected with left movable component, and this left movable component is connected with the first left slider; The main shaft of right servomotor is connected with right movable component, and this right movable component is connected with the first right slide block;
The below of described frame is provided with the lower servomotor that drives linear slide rail longitudinal sliding motion, and the main shaft of this lower servomotor is connected with lower movable component, and this lower movable component is connected with linear slide rail.
Wherein, described left movable component comprises left cross lead screw, left screw rod bushing, left connecting rod, left movable block and left drive rod, this left cross lead screw is connected with the main shaft of left servomotor, left screw rod bushing and the socket of left cross lead screw, one end of left connecting rod is connected with left screw rod bushing, the other end of left connecting rod and left movable block are hinged, and one end of left drive rod and left movable block are hinged, and the other end of left drive rod is connected with the first left slider;
Described right movable component comprises right cross lead screw, right screw rod bushing, right connecting rod, right movable block and right drive rod, this right cross lead screw is connected with the main shaft of right servomotor, right screw rod bushing and the socket of right cross lead screw, one end of right connecting rod is connected with right screw rod bushing, the other end of right connecting rod and right movable block are hinged, one end of right drive rod and right movable block are hinged, and the other end of right drive rod is connected with the first right slide block;
Described lower movable component comprises lower longitudinal screw mandrel, lower screw rod bushing, lower connecting rod and lower drive rod, this lower longitudinal screw mandrel is connected with the main shaft of lower servomotor, lower screw rod bushing and lower longitudinal screw mandrel socket, one end of lower connecting rod is connected with lower screw rod bushing, one end of the other end of lower connecting rod and lower drive rod is hinged, and the other end of lower drive rod is connected with linear slide rail.
Wherein, described erecting is equipped with the spacing adjusting device for regulating the spacing between left movable component and right movable component;
Described spacing adjusting device comprises the longitudinal screw mandrel in the end, end screw rod bushing, movable plate, guide rod and guide pin bushing, the top of this movable plate is connected with left servomotor, right servomotor, left movable block and right movable block, guide pin bushing and end screw rod bushing are all fixedly installed on the bottom of movable plate, guide rod and guide pin bushing socket, the longitudinal screw mandrel in the end and the socket of end screw rod bushing.
Wherein, one end of the longitudinal screw mandrel in the described end is connected with the adjusting rotating disk that drives the longitudinal screw mandrel in the end to rotate.
Wherein, also comprise the adjusting screw mandrel for regulating the spacing between the second left slider and the second right slide block, this adjusting screw mandrel comprises interconnective left-hand thread section and right-hand thread section, and left-hand thread section is contrary with the hand of spiral of right-hand thread section;
Regulate the left-hand thread section of screw mandrel be arranged in the second left slider and with its socket, regulate the right-hand thread section of screw mandrel be arranged in the second right slide block and with its socket.
Wherein, the rear end of described left motion bar and the rear end of right motion bar are provided with a crossbeam, are provided with left linear bearing between left motion bar and crossbeam, left motion bar and the socket of left linear bearing; Between right motion bar and crossbeam, be provided with right linear bearing, right motion bar and the socket of right linear bearing; Left linear bearing, right linear bearing are all slidably connected with crossbeam.
Wherein, between described left motion bar and right motion bar, be connected with the feed bin for placing cardboard or carton.
Wherein, the inner side of described left motion bar and right motion bar is provided with limited block.
The beneficial effects of the utility model: the bonding servo deviation-rectifying system of the world of the present utility model box machine and cover machine paper product, during work, deviation-rectifying system receive full-automatic world box machine and automatically in cover machine photoelectric sensor the signal of the error between face paper and Board detected, this signal passes to left servomotor, right servomotor and lower servomotor, left servomotor, right servomotor and lower servomotor carry out correction work according to the signal that receives photoelectric sensor, be that left servomotor drives left movable component motion by main shaft, left movable component drives connected the first left slider motion again, due to the first left slider with have linear slide rail to slip, make linear slide rail towards horizontal direction certain angle that tilts, when linear slide rail tilts, the left motion bar transverse shifting that the second left slider slipping with linear slide rail is connected, left servomotor is according to the signal that receives photoelectric sensor transmission, thereby drive the laterally certain stroke of slip of left motion bar, carry out the position that is positioned over cardboard on deviation-rectifying system or carton and is positioned at this limit of left motion bar to ajust, in like manner, right servomotor is according to the signal that receives photoelectric sensor transmission, drive the laterally certain stroke of slip of right motion bar, carry out the position that is positioned over cardboard on deviation-rectifying system or carton and is positioned at this limit of right motion bar to ajust, meanwhile, lower servomotor, according to the signal that receives photoelectric sensor transmission, drives linear slide rail to drive left motion bar and the certain stroke of right motion bar longitudinal sliding motion, and then the cardboard or the carton that are positioned on deviation-rectifying system is carried out to ajusting of lengthwise position, left servomotor of the present utility model, right servomotor or lower servomotor both can work independently, can also work simultaneously the cardboard on deviation-rectifying system or carton are carried out to ajusting of relevant position, work is without constraint each other, one direction is ajusted more than stroke can reach 100mm, owing to adopting driven by servomotor, realize the positive and negative distance value of the two edge line of cardboard and carton digital control, the signal of telecommunication is converted into torque and rotational speed to drive control object, control rate and positional precision are all very accurate, and whole deviation-rectifying system structure is simpler, practical reliable, it is better that rectifying effect but can reach.
Accompanying drawing explanation
Fig. 1 is the structural representation of the main apparent direction of the utility model.
Fig. 2 is the structural representation that the utility model is overlooked direction.
Fig. 3 is the structural representation of the right apparent direction that is connected with the second left slider of lower servomotor of the present utility model, lower movable component.
Fig. 4 is the structural representation of overlooking direction that lower servomotor of the present utility model is connected with lower movable component.
Fig. 5 is the local enlarged diagram at A place in the utility model Fig. 1.
Fig. 6 is the local enlarged diagram at B place in the utility model Fig. 2.
Fig. 7 is the local enlarged diagram at C place in the utility model Fig. 2.
Fig. 8 is that the utility model is ajusted the duty sketch while rectifying a deviation.
Reference numeral comprises:
10-frame 20-left motion bar 21-left linear bearing
23-crossbeam 30-right motion bar 31-right linear bearing
40-linear slide rail, 41-the first left slider the 42-the second left slider
The 43-the second right slide block 50-left servomotor 60-right servomotor
70-left movable component 71-left cross lead screw 72-left screw rod bushing
73-left connecting rod 74-left movable block 75-left drive rod
80-right movable component 81-right cross lead screw 82-right screw rod bushing
83-right connecting rod 84-right movable block 85-right drive rod
90-lower servomotor 100-lower movable component 101-lower longitudinal screw mandrel
102-lower screw rod bushing 103-lower connecting rod 104-lower drive rod
110-end longitudinal screw mandrel 111-end screw rod bushing 112-movable plate
113-guide rod, 114-guide pin bushing 115-adjusting rotating disk
120-feed bin, 121-limited block, 130-cardboard or carton
140-adjusting screw mandrel.
The specific embodiment
Below in conjunction with accompanying drawing, the utility model is described in detail, wherein, the said noun of locality of the utility model is upper and lower, front, rear, left and right are all take Fig. 2 as benchmark.
As shown in Figures 1 to 7, the bonding servo deviation-rectifying system of the world of the present utility model box machine and cover machine paper product, comprises frame 10, and the both sides of described frame 10 tops are respectively arranged with left motion bar 20 and right motion bar 30;
The front end of the front end of described left motion bar 20 and right motion bar 30 is provided with linear slide rail 40, linear slide rail 40 slips has the first left slider 41, the second left slider 42, the first right slide block (in figure, not to indicate, the mounting means of the first right slide block is identical with the first left slider 41) and the second right slide block 43, left motion bar 20, right motion bar 30 are connected with the second left slider 42, the second right slide block 43 respectively;
The both sides of described frame 10 tops are also respectively arranged with left servomotor 50 and the right servomotor 60 for driving linear slide rail 40 transverse shiftings or angular deflection, the main shaft of left servomotor 50 is connected with left movable component 70, and this left movable component 70 is connected with the first left slider 41; The main shaft of right servomotor 60 is connected with right movable component 80, and this right movable component 80 is connected with the first right slide block;
The below of described frame 10 is provided with the lower servomotor 90 that drives linear slide rail 40 longitudinal sliding motions, and the main shaft of this lower servomotor 90 is connected with lower movable component 100, and this lower movable component 100 is connected with linear slide rail 40.
During work, deviation-rectifying system receive full-automatic world box machine and automatically in cover machine photoelectric sensor the signal of the error between face paper and Board detected, this signal passes to left servomotor 50, right servomotor 60 and lower servomotor 90, left servomotor 50, right servomotor 60 and lower servomotor 90 carry out correction work according to the signal that receives photoelectric sensor, be that left servomotor 50 drives left movable component 70 to move by main shaft, left movable component 70 drives connected the first left slider 41 to move again, due to the first left slider 41 with have linear slide rail 40 to slip, make linear slide rail 40 towards the certain angle of horizontal direction inclination and offset, when linear slide rail 40 tilts, left motion bar 20 transverse shiftings that the second left slider 42 slipping with linear slide rail 40 is connected, left servomotor 50 is according to the signal that receives photoelectric sensor transmission, thereby drive the laterally certain stroke of slip of left motion bar 20, carry out the position that is positioned over cardboard on deviation-rectifying system or carton 130 and is positioned at left motion bar 20 these limits to ajust, in like manner, right servomotor 60 is according to the signal that receives photoelectric sensor transmission, drive the laterally certain stroke of slip of right motion bar 30, carry out the position that is positioned over cardboard on deviation-rectifying system or carton 130 and is positioned at right motion bar 30 these limits to ajust, in the technical program, left servomotor 50 can drive separately left motion bar 20 laterally to slide and not affect the motion of right motion bar 30, in like manner, right servomotor 60 can drive separately right motion bar 30 laterally to slide and not affect the motion of left motion bar 20,, according to the signal of photoelectric sensor transmission, carrying out separately or simultaneously the transverse shifting of left motion bar 20 and right motion bar 30 ajusts, compare traditional air cylinder driven and can only realize the technology that drives left motion bar 20 and right motion bar 30 simultaneously to move, the technical program realizes that to ajust the control of precision more accurate, simultaneously, lower servomotor 90 is according to the signal that receives photoelectric sensor transmission, drive linear slide rail 40 to drive left motion bar 20 and the certain stroke of right motion bar 30 longitudinal sliding motions, and then the cardboard or the carton 130 that are positioned on deviation-rectifying system are carried out to ajusting of lengthwise position, left servomotor 50 of the present utility model, right servomotor 60 or lower servomotor 90 both can work independently, can also work simultaneously the cardboard on deviation-rectifying system or carton 130 are carried out to ajusting of relevant position, overall structure is simple, add the first left slider 41, the second left slider 42, the setting of the first right slide block and the second right slide block 43, make the mutual work of left motion bar 20 and right motion bar 30 without constraint, left motion bar 20 and 30 work of right motion bar there will not be stuck, one direction is ajusted more than stroke can reach 100mm, owing to adopting driven by servomotor, realize the positive and negative distance value of the two edge line of cardboard and carton digital control, the signal of telecommunication is converted into torque and rotational speed to drive control object, control rate and positional precision are all very accurate, and whole deviation-rectifying system structure is simpler, practical reliable, it is better that rectifying effect but can reach.
In addition, the utility model is applicable to full-automatic world box machine and automatic cover machine, simple in structure and versatility good.
In the present embodiment, described left movable component 70 comprises left cross lead screw 71, left screw rod bushing 72, left connecting rod 73, left movable block 74 and left drive rod 75, this left cross lead screw 71 is connected with the main shaft of left servomotor 50, left screw rod bushing 72 is socketed with left cross lead screw 71, one end of left connecting rod 73 is connected with left screw rod bushing 72, the other end of left connecting rod 73 and left movable block 74 are hinged, and one end of left drive rod 75 and left movable block 74 are hinged, and the other end of left drive rod 75 is connected with the first left slider 41, refer to Fig. 5 and Fig. 6, during specific works, the main shaft of left servomotor 50 rotates, drive the connected axial filament bar that rolls left to rotate, the axial filament bar that rolls left rotates and drives with the left screw rod bushing 72 of its socket and laterally move linearly (circular motion of the axial filament bar that is about to roll left is converted into the horizontal rectilinear motion of left screw rod bushing 72), left screw rod bushing 72 drives the horizontal rectilinear motion of left connecting rod 73, left connecting rod 73 drives the horizontal rectilinear motion of left drive rod 75 by left movable block 74 again, left drive rod 75 drives connected the first left slider 41 transverse shiftings, now, the first left slider 41 drives the certain angle of linear slide rail 40 lateral inclinations of slipping with it, in the time of linear slide rail 40 lateral inclination certain angle, promote the laterally certain stroke of slip of left motion bar 20 being connected with the second left slider 42, according to the concrete signal that receives photoelectric sensor transmission, drive the horizontal stroke more than slip 100mm of left motion bar 20, thereby reach the object of ajusting correction.
Described right movable component 80 comprises right cross lead screw 81, right screw rod bushing 82, right connecting rod 83, right movable block 84 and right drive rod 85, this right cross lead screw 81 is connected with the main shaft of right servomotor 60, right screw rod bushing 82 is socketed with right cross lead screw 81, one end of right connecting rod 83 is connected with right screw rod bushing 82, the other end of right connecting rod 83 and right movable block 84 are hinged, one end of right drive rod 85 and right movable block 84 are hinged, and the other end of right drive rod 85 is connected with the first right slide block, refer to Fig. 7, during specific works, the main shaft of right servomotor 60 rotates, drive connected right roller bearing screw mandrel to rotate, right roller bearing screw mandrel rotates and drives with the right screw rod bushing 82 of its socket and laterally move linearly (the horizontal rectilinear motion that the circular motion that is about to right roller bearing screw mandrel is converted into right screw rod bushing 82), right screw rod bushing 82 drives the horizontal rectilinear motion of right connecting rod 83, right connecting rod 83 drives the horizontal rectilinear motion of right drive rod 85 by right movable block 84 again, right drive rod 85 drives connected the first right slide block transverse shifting, now, the first right slide block drives the certain angle of linear slide rail 40 lateral inclinations of slipping with it, in the time of linear slide rail 40 lateral inclination certain angle, promote the laterally certain stroke of slip of right motion bar 30 being connected with the second left slider 42, according to the concrete signal that receives photoelectric sensor transmission, drive the horizontal stroke more than slip 100mm of right motion bar 30, thereby reach the object of ajusting correction.
Described lower movable component 100 comprises lower longitudinal screw mandrel 101, lower screw rod bushing 102, lower connecting rod 103 and lower drive rod 104, this lower longitudinal screw mandrel 101 is connected with the main shaft of lower servomotor 90, lower screw rod bushing 102 is socketed with lower longitudinal screw mandrel 101, one end of lower connecting rod 103 is connected with lower screw rod bushing 102, one end of the other end of lower connecting rod 103 and lower drive rod 104 is hinged, and the other end of lower drive rod 104 is connected with linear slide rail 40, refer to Fig. 3 and Fig. 4, during specific works, the main shaft of lower servomotor 90 rotates, drive connected lower roller bearing screw mandrel to rotate, lower roller bearing screw mandrel rotates and drives laterally move linearly with the lower screw rod bushing 102 of its socket (linear longitudinal movement that under being about to, the circular motion of roller bearing screw mandrel is converted into lower screw rod bushing 102), lower screw rod bushing 102 drives lower connecting rod 103 linear longitudinal movements, lower connecting rod 103 drives connected lower drive rod 104 linear longitudinal movements again, lower drive rod 104 drivings are connected linear slide rail 40 and vertically move with it, now, linear slide rail 40 drives and the left motion bar 20 being connected and the certain stroke of right motion bar 30 longitudinal sliding motions, according to the concrete signal that receives photoelectric sensor transmission, drive left motion bar 20 and strokes more than right motion bar 30 longitudinal sliding motion 100mm, thereby reach the object of ajusting correction.
In the technical program, when left servomotor 50 or right servomotor 60 carry out angle that one-sided task driven linear slide rail 40 tilts certain, because left connecting rod 73 is hinged with left movable block 74, left drive rod 75 is hinged with left movable block 74, simultaneously, right connecting rod 83 is hinged with right movable block 84, and right drive rod 85 is hinged with right movable block 84; The first, left connecting rod 73, left drive rod 75 all can be realized and rotating with the hinged place of left motion bar 20; Second, right connecting rod 83, right drive rod 85 all can be realized and rotating with the hinged place of right motion bar 30, and then when linear slide rail 40 tilts, correspondingly left connecting rod 73, left drive rod 75, right connecting rod 83 and right drive rod 85 correspondingly rotate, by the design of the first left slider 41, the second left slider 42, the first right slide block and the second right slide block 43, while guaranteeing not to be worked independently by the stuck or right servomotor 60 of right motion bar 30 when wherein left servomotor 50 works independently by the stuck phenomenon of left motion bar 20.The servomotor of the technical program is realized and being worked independently, and without constraint, nothing impact, guarantees to ajust correction precision more accurate each other.
In the present embodiment, described frame 10 is provided with the spacing adjusting device for regulating the spacing between left movable component 70 and right movable component 80; Described spacing adjusting device comprises the longitudinal screw mandrel 110 in the end, end screw rod bushing 111, movable plate 112, guide rod 113 and guide pin bushing 114, the top of this movable plate 112 is connected with left servomotor 50, right servomotor 60, left movable block 74 and right movable block 84, guide pin bushing 114 and end screw rod bushing 111 are all fixedly installed on the bottom of movable plate 112, guide rod 113 is socketed with guide pin bushing 114, and longitudinal screw mandrel 110 is socketed with end screw rod bushing 111 at the end.
According to the size of the box of concrete production, before the manufacturing, can the longitudinal pitch between left servomotor 50 and right servomotor 60 be regulated by spacing adjusting device, by driving the longitudinal screw mandrel 110 in the end, longitudinal screw mandrel 110 rotates end screw rod bushing 111 linear longitudinal movements that drive with its socket at the end, the guide pin bushing 114 connecting due to movable plate 112 bottoms is socketed on guide rod 113, at end screw rod bushing 111, drive connected movable plate 112 to move along guide rod 113, left servomotor 50, right servomotor 60, left movable block 74 and right movable block 84 are all fixedly connected with movable plate 112, according to the needs of concrete production, regulate right servomotor 60 corresponding to make with left motion bar 20 and right motion bar 30 positions to the distance values adapting with left servomotor 50, the technical program is owing to adopting the longitudinal screw mandrel 110 in the end to drive, and the same socket relation of crossing guide pin bushing 114 and guide rod 113, makes movable plate 112 more steady, smooth and easy in mobile process.
Concrete, one end of the longitudinal screw mandrel 110 in the described end is connected with the adjusting rotating disk 115 that drives the longitudinal screw mandrel 110 in the end to rotate, operating personnel can regulate rotating disk 115 by hand rotation, can realize the longitudinal screw mandrel 110 in the end driving with regulating rotating disk 115 to be connected rotates, manual operation is reasonable in design, cost is cheaper, and structure is simpler, and practicality is very strong.
In the present embodiment, also comprise the adjusting screw mandrel 140 for regulating the spacing between the second left slider 42 and the second right slide block 43, this adjusting screw mandrel 140 comprises interconnective left-hand thread section and right-hand thread section, and left-hand thread section is contrary with the hand of spiral of right-hand thread section; Regulate the left-hand thread section of screw mandrel 140 be arranged in the second left slider 42 and with its socket, regulate the right-hand thread section of screw mandrel 140 be arranged in the second right slide block 43 and with its socket.When cardboard or carton 130 are positioned between left motion bar 20 and right motion bar 30, by startup, regulate screw mandrel 140, regulate screw mandrel 140 to rotate, to drive the second left slider 42 and the second right slide block 43 to move simultaneously inwardly or outward, the spacing diffusing into or dwindle between left motion bar 20 and right motion bar 30 positions with the cardboard between left motion bar 20 and right motion bar 30 or carton 130, can carry out follow-up operation after location.
As shown in Figures 1 and 2, the rear end of the rear end of described left motion bar 20 and right motion bar 30 is provided with a crossbeam 23, is provided with left linear bearing 21 between left motion bar 20 and crossbeam 23, and left motion bar 20 is socketed with left linear bearing 21; Between right motion bar 30 and crossbeam 23, be provided with right linear bearing 31, right motion bar 30 is socketed with right linear bearing 31; Left linear bearing 21, right linear bearing 31 are all slidably connected with crossbeam 23.Left motion bar 20 laterally slides along left linear bearing 21 under the driving of left servomotor 50, in like manner, right motion bar 30 under the driving of right servomotor 60 along right linear bearing 31 transverse shiftings, simultaneously, left motion bar 20 under the driving of lower servomotor 90 by left linear bearing 21 along crossbeam 23 longitudinal sliding motions, thereby realize left motion bar 20 and right motion bar 30 horizontal, longitudinal ajust correction.
Further, between described left motion bar 20 and right motion bar 30, be connected with feed bin 120(for placing cardboard or carton 130 referring to Fig. 2), feed bin 120 is for preventing from manufacturing cardboard or the carton 130 of box, be arranged between left motion bar 20 and right motion bar 30 and can, when ajusting left motion bar 20 and right motion bar 30, realize the cardboard or the carton 130 that are positioned on feed bin 120 are ajusted to correction.
Further, the inner side of described left motion bar 20 and right motion bar 30 is provided with limited block 121, and limited block 121 carries out spacing and location and installation (referring to Fig. 2) to the feed bin 120 arranging between left motion bar 20 and right motion bar 30.
See Fig. 8, when needs are ajusted the cardboard placed in correction feed bin 120 or during carton 130, the utility model receives the signal that photoelectric sensor transmits, by left servomotor 50, right servomotor 60 and lower servomotor 90, drive left motion bar 20 and right motion bar 30 to realize horizontal and vertical slip, thereby cardboard or carton 130 are ajusted, wherein, left motion bar 20 can be realized motion separately with right motion bar 30, there will not be stuck phenomenon, reasonable in design, practical reliable.
Above content is only preferred embodiment of the present utility model, for those of ordinary skill in the art, according to thought of the present utility model, all will change in specific embodiments and applications, this description should not be construed as restriction of the present utility model.

Claims (8)

1. the bonding servo deviation-rectifying system of world box machine and cover machine paper product, comprises frame (10), and the both sides of described frame (10) top are respectively arranged with left motion bar (20) and right motion bar (30), it is characterized in that:
The front end of the front end of described left motion bar (20) and right motion bar (30) is provided with linear slide rail (40), linear slide rail (40) slips the first left slider (41), the second left slider (42), the first right slide block and the second right slide block (43), and left motion bar (20), right motion bar (30) are connected with the second left slider (42), the second right slide block (43) respectively;
The both sides of described frame (10) top are also respectively arranged with left servomotor (50) and the right servomotor (60) for driving linear slide rail (40) transverse shifting or angular deflection, the main shaft of left servomotor (50) is connected with left movable component (70), and this left movable component (70) is connected with the first left slider (41); The main shaft of right servomotor (60) is connected with right movable component (80), and this right movable component (80) is connected with the first right slide block;
The below of described frame (10) is provided with the lower servomotor (90) that drives linear slide rail (40) longitudinal sliding motion, the main shaft of this lower servomotor (90) is connected with lower movable component (100), and this lower movable component (100) is connected with linear slide rail (40).
2. the bonding servo deviation-rectifying system of the world according to claim 1 box machine and cover machine paper product, it is characterized in that: described left movable component (70) comprises left cross lead screw (71), left screw rod bushing (72), left connecting rod (73), left movable block (74) and left drive rod (75), this left cross lead screw (71) is connected with the main shaft of left servomotor (50), left screw rod bushing (72) and left cross lead screw (71) socket, one end of left connecting rod (73) is connected with left screw rod bushing (72), the other end of left connecting rod (73) and left movable block (74) are hinged, one end of left drive rod (75) and left movable block (74) are hinged, the other end of left drive rod (75) is connected with the first left slider (41),
Described right movable component (80) comprises right cross lead screw (81), right screw rod bushing (82), right connecting rod (83), right movable block (84) and right drive rod (85), this right cross lead screw (81) is connected with the main shaft of right servomotor (60), right screw rod bushing (82) and right cross lead screw (81) socket, one end of right connecting rod (83) is connected with right screw rod bushing (82), the other end of right connecting rod (83) and right movable block (84) are hinged, one end of right drive rod (85) and right movable block (84) are hinged, the other end of right drive rod (85) is connected with the first right slide block,
Described lower movable component (100) comprises lower longitudinal screw mandrel (101), lower screw rod bushing (102), lower connecting rod (103) and lower drive rod (104), this lower longitudinal screw mandrel (101) is connected with the main shaft of lower servomotor (90), lower screw rod bushing (102) and lower longitudinal screw mandrel (101) socket, one end of lower connecting rod (103) is connected with lower screw rod bushing (102), one end of the other end of lower connecting rod (103) and lower drive rod (104) is hinged, and the other end of lower drive rod (104) is connected with linear slide rail (40).
3. the bonding servo deviation-rectifying system of the world according to claim 2 box machine and cover machine paper product, is characterized in that: described frame (10) is provided with the spacing adjusting device for regulating the spacing between left movable component (70) and right movable component (80);
Described spacing adjusting device comprises the longitudinal screw mandrel in the end (110), end screw rod bushing (111), movable plate (112), guide rod (113) and guide pin bushing (114), the top of this movable plate (112) is connected with left servomotor (50), right servomotor (60), left movable block (74) and right movable block (84), guide pin bushing (114) and end screw rod bushing (111) are all fixedly installed on the bottom of movable plate (112), guide rod (113) and guide pin bushing (114) socket, the longitudinal screw mandrel in the end (110) and end screw rod bushing (111) socket.
4. the bonding servo deviation-rectifying system of the world according to claim 3 box machine and cover machine paper product, is characterized in that: one end of the longitudinal screw mandrel in the described end (110) is connected with the adjusting rotating disk (115) that drives the longitudinal screw mandrel in the end (110) to rotate.
5. the bonding servo deviation-rectifying system of the world according to claim 1 box machine and cover machine paper product, it is characterized in that: also comprise the adjusting screw mandrel (140) for regulating the spacing between the second left slider (42) and the second right slide block (43), this adjusting screw mandrel (140) comprises interconnective left-hand thread section and right-hand thread section, and left-hand thread section is contrary with the hand of spiral of right-hand thread section;
Regulate screw mandrel (140) left-hand thread section be arranged in the second left slider (42) and with its socket, regulate screw mandrel (140) right-hand thread section be arranged in the second right slide block (43) and with its socket.
6. the bonding servo deviation-rectifying system of the world according to claim 1 box machine and cover machine paper product, it is characterized in that: the rear end of the rear end of described left motion bar (20) and right motion bar (30) is provided with a crossbeam (23), between left motion bar (20) and crossbeam (23), be provided with left linear bearing (21), left motion bar (20) and left linear bearing (21) socket; Between right motion bar (30) and crossbeam (23), be provided with right linear bearing (31), right motion bar (30) and right linear bearing (31) socket; Left linear bearing (21), right linear bearing (31) are all slidably connected with crossbeam (23).
7. the bonding servo deviation-rectifying system of the world according to claim 1 box machine and cover machine paper product, is characterized in that: between described left motion bar (20) and right motion bar (30), be connected with the feed bin (120) for placing cardboard or carton (130).
8. the bonding servo deviation-rectifying system of the world according to claim 7 box machine and cover machine paper product, is characterized in that: the inner side of described left motion bar (20) and right motion bar (30) is provided with limited block (121).
CN201320610946.0U 2013-09-30 2013-09-30 Paper product bonding servo correction system for paper pack machine and cover making machine Withdrawn - After Issue CN203580231U (en)

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Application Number Priority Date Filing Date Title
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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103481542A (en) * 2013-09-30 2014-01-01 陈桢粦 Paper product bonding servo rectification system of cover and tray carton machine and covering making machine
CN107206722A (en) * 2014-11-24 2017-09-26 鲍勃斯脱梅克斯股份有限公司 Method and apparatus for the position of the fold blank that corrects folded, glued machine
US10576706B2 (en) 2015-05-19 2020-03-03 The Procter & Gamble Company Method and apparatus for constructing folded flats for housing absorbent articles

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103481542A (en) * 2013-09-30 2014-01-01 陈桢粦 Paper product bonding servo rectification system of cover and tray carton machine and covering making machine
CN103481542B (en) * 2013-09-30 2015-12-02 陈桢粦 World box machine and cover machine paper product bonding servo deviation-rectifying system
CN107206722A (en) * 2014-11-24 2017-09-26 鲍勃斯脱梅克斯股份有限公司 Method and apparatus for the position of the fold blank that corrects folded, glued machine
CN107206722B (en) * 2014-11-24 2019-07-09 鲍勃斯脱梅克斯股份有限公司 Method and apparatus for correcting the position of the fold blank of folded, glued machine
US10576706B2 (en) 2015-05-19 2020-03-03 The Procter & Gamble Company Method and apparatus for constructing folded flats for housing absorbent articles

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