CN103862851B - Fine tuning device for lower cushion plate and work method of fine tuning device - Google Patents

Abstract

The invention discloses a fine tuning device for a lower cushion plate and a work method of the fine tuning device. The device comprises the lower cushion plate and is characterized by also comprising an operation side adjusting mechanism and a transmission side adjusting mechanism; the operation side adjusting mechanism is fixedly arranged at the operation side of the lower cushion plate; the transmission side adjusting mechanism is fixedly arranged at the transmission side of the lower cushion plate. The work method comprises the fine tuning mode at the operation side of the lower cushion plate in the front-back direction, the fine tuning mode at the transmission side of the lower cushion plate in the front-back direction and the fine tuning mode of the lower cushion plate in the left-right direction. The fine tuning device for the lower cushion plate have the advantages of novel structure, convenience in adjustment and accuracy in location.

Description

A kind of micromatic setting and its method of work of lower bolster

（One）Technical field:

The present invention relates to the micromatic setting and its method of work of field of printing machinery, especially a kind of lower bolster.

（Two）Background technology:

In today that market competition environment is growing more intense, production firm, come improve production efficiency, is strengthened by various modes The competitiveness of itself.Generally there is two ways：On the one hand work efficiency is improved by improving the speed of production of equipment.The opposing party Face, by the time for effectively reducing production, makes workman quickly enter normal production status, reduces unnecessary shutdown etc., These modes objectively also play the effect for improving work efficiency.

Lower bolster be carry out be die cut thermoprint operation when pad operation station flat board, mould under installing on lower bolster Tool, correspondence can install mold on upper mounting plate.When normal operation, need upper and lower mould accurate contraposition, just can guarantee that last Machining accuracy.Because mold weares and teares or alignment error, or the error of paper, upper and lower mould para-position can be caused to be forbidden, this is just Need to be finely adjusted upper and lower mould, to guarantee that they align.In order to not destroy the positive relationship of mold and processing paper, The most reasonable approach is that lower mould is adjusted, therefore the pose for passing through the lower mould of the fine setting adjustment of lower bolster is Job readiness An important step.Current lower bolster micromatic setting needs before adjustment to turn on screw, adjustment finish also need to by Screw is screwed back, cumbersome, is unfavorable for improving work efficiency.

In order to solve this technical barrier, a kind of micromatic setting of lower bolster is developed, in that context it may be convenient to operate and lock, this Undoubtedly the Job readiness time will be in a large number reduced, improve work efficiency, and can more meet the market demand.

（Three）The content of the invention:

It is an object of the invention to provide the micromatic setting and its method of work of a kind of lower bolster, are set by ingenious ground structure Meter, only needs ease of Use to be capable of achieving the regulation and locking of lower bolster, it is not necessary to which operation instrument carries out tightening screw etc. loaded down with trivial details Operation, can significantly improve work efficiency, solve the deficiencies in the prior art.

Technical scheme：A kind of micromatic setting of lower bolster, including lower bolster, it is characterised in that it also includes behaviour Make side governor motion and transmission side governor motion, fore side governor motion is fixedly mounted on the fore side of lower bolster, and transmission side is adjusted Section mechanism is fixedly mounted on the transmission side of lower bolster.

Fore side governor motion described above is by fore side fixed block, fore side front and rear regulation structure and left and right adjusting structure Composition, fore side front and rear regulation structure and left and right adjusting structure are installed on fore side fixed block.

Transmission side governor motion described above is by transmission side fixed block, transmission side front and rear regulation structure and compressing structure group It is installed on transmission side fixed block into, transmission side front and rear regulation structure and compressing structure.

Fore side front and rear regulation structure described above includes adjusting knob a, spring a, alignment pin a, transit axle a and bullet in front and back Property pin a；One end of the transit axle a and fore side fixed block are rotated according to bearing and be connecteds, the other end and fore side fixed block screw thread Connection；Adjusting knob a and spring a is through the middle part of transit axle a before and after described, concentric with transit axle a；The spring a is limited in In front and back between the confined planes and fore side fixed block in adjusting knob a；Described resilient key a one end is fixedly connected with transit axle, separately One end is through in the sliding elongated slot a of before and after adjusting knob a；Described alignment pin a one end is fixed on the hole position on fore side fixed block In, the other end is through in spacing hole a corresponding on adjusting knob.

Left and right adjusting structure described above includes spring b, resilient key b, horizontal rotating shaft, left and right adjusting knob and door；It is described One end of horizontal rotating shaft is threadedly coupled with fore side fixed block, and the other end of horizontal rotating shaft is fixedly connected with door；The spring b and a left side Right adjusting knob is through in horizontal rotating shaft；The spring b is limited between the confined planes in left and right adjusting knob and door；It is described Resilient key b one end is through in horizontal rotating shaft, and the other end is through in the sliding elongated slot b of left and right adjusting knob；Described alignment pin b one end is consolidated It is scheduled in the hole position on fore side fixed block, the other end is through in spacing hole b corresponding on left and right adjusting knob.

Transmission side front and rear regulation structure described above includes adjusting knob b, spring c, alignment pin c, transit axle b and bullet in front and back Property pin c；One end of the transit axle b and transmission side fixed block are rotated according to bearing and be connecteds, the other end and transmission side fixed block screw thread Connection；Adjusting knob b, spring c are through the middle part of transit axle b before and after described, and the spring c is limited in before and after adjusting knob b Confined planes and transmission side fixed block between；Described resilient key c one end is through on transit axle b, and the other end adjusts rotation before and after being through In the sliding elongated slot c of button b；Described alignment pin c one end is fixed in the hole position on transmission side fixed block, and the other end is adjusted before and after being through On section knob b in corresponding spacing hole c.

Compressing structure described above includes spring d, resilient key d and horizontal limit rotary shaft；The horizontal limit rotary shaft and transmission side Fixed block is slidably connected；The spring d is through in horizontal limit rotary shaft, and the limiting stand and transmission side for being limited in horizontal limit rotary shaft is fixed Between block；Described resilient key d one end is through in horizontal limit rotary shaft, and the other end is through in the sliding elongated slot d on transmission side fixed block.

A kind of method of work of the micromatic setting of above-mentioned lower bolster, it is characterised in that comprise the following steps that：

（1）The fore-and-aft direction fine-tuning mode of lower bolster fore side：By side from Qian Hou adjusting knob a to remotely located pin a It is mobile, depart from alignment pin a and spacing hole a, now spring a is compressed, adjusting knob a before and after rotation, by transit axle a and behaviour Make the screw thread mating reaction of side fixed block, make transit axle a have relative motion with fore side fixed block fore-and-aft direction, so that underlay The fore side fore-and-aft direction position of plate changes；When adjusting to appropriate location, stop the rotation, in the work of spring a restoring forces With under, in front and back adjusting knob a is pushed to alignment pin a sides, and alignment pin a is inserted in corresponding spacing hole a, realizes locking limit Position；

（2）The fore-and-aft direction fine-tuning mode of lower bolster transmission side：By side from Qian Hou adjusting knob b to remotely located pin c It is mobile, depart from alignment pin c and spacing hole c, now spring c is compressed, adjusting knob b before and after rotation, by transit axle b and biography The screw thread mating reaction of dynamic side fixed block, makes transit axle b have relative motion with transmission side fixed block fore-and-aft direction, so that underlay The transmission side fore-and-aft direction position of plate changes；In the presence of spring c restoring forces, in front and back adjusting knob b is pushed to positioning Pin c sides, alignment pin c is inserted in corresponding spacing hole c, realizes that locking is spacing；

（3）Lower bolster left and right directions fine-tuning mode：Left and right adjusting knob is pulled outwardly, alignment pin b and spacing hole b departs from, Now spring b is compressed, and due to the screw thread mating reaction of horizontal rotating shaft and fore side fixed block, rotation left and right adjusting knob causes behaviour Make side fixed block to change with the relative position of horizontal rotating shaft, so that the relative position of lower bolster left and right directions changes； Meanwhile, horizontal limit rotary shaft changes with the relative position of transmission side fixed block, after correct position is adjusted to, unclamps left and right adjusting Knob, alignment pin b is inserted in corresponding spacing hole b, and in spring c and the collective effect of spring d, the position of lower bolster is consolidated Lock is tight.

The present invention is advantageous in that：Structure is novel, easy to adjust, accurate positioning.

（Four）Description of the drawings:

Fig. 1 is a kind of structural representation of the micromatic setting of lower bolster involved by the present invention.

A kind of structural representation of the fore side governor motion explosive state of the involved micromatic setting of lower bolster of Fig. 2 present invention Figure.

A kind of structural representation of the transmission side governor motion explosive state of the involved micromatic setting of lower bolster of Fig. 3 present invention

Wherein:1-1 adjusting knob a for before and after, the 1-2 adjusting knob b for before and after, 2-1 are spring a, and 2-2 is spring b, 2-3 For spring c, 2-4 is spring d, and 3-1 is alignment pin a, and 3-2 is alignment pin b, and 3-3 is alignment pin c, and 4-1 is transit axle a, and 4-2 is Transit axle b, 5-1 are resilient key a, and 5-2 is resilient key b, and 5-3 is resilient key c, and 5-4 is resilient key d, and 6 is horizontal rotating shaft, and 7 are operation Side fixed block, 8 is left and right adjusting knob, and 9 is door, and 10 is transmission side fixed block, and 11 is horizontal limit rotary shaft, and 12 is lower bolster, 1-1-1 is sliding elongated slot a, and 1-1-2 is spacing hole a, and 1-2-1 is sliding elongated slot c, and 1-2-2 is spacing hole c, and 8-1 is sliding elongated slot B, 8-2 are spacing hole b, and 10-1 is sliding elongated slot d, and 11-1 is limiting stand.

（Five）Specific embodiment:

Embodiment：A kind of micromatic setting of lower bolster, including lower bolster 12, it is characterised in that it is also adjusted including fore side Mechanism and transmission side governor motion, fore side governor motion is fixedly mounted on the fore side of lower bolster, and transmission side governor motion is consolidated Dingan County is mounted in the transmission side of lower bolster.（See Fig. 1）

Fore side governor motion described above is tied by fore side fixed block 7, fore side front and rear regulation structure and left and right adjusting Structure is constituted, and fore side front and rear regulation structure and left and right adjusting structure are installed on fore side fixed block 7.

Transmission side governor motion described above is by transmission side fixed block 10, transmission side front and rear regulation structure and compressing structure group It is installed on transmission side fixed block 10 into, transmission side front and rear regulation structure and compressing structure.

Fore side front and rear regulation structure described above include before and after adjusting knob a1-1, spring a2-1, alignment pin a3-1, vertical Rotating shaft a4-1 and resilient key a5-1；One end of the transit axle a4-1 rotates according to bearing with fore side fixed block 7 and is connected, the other end It is threadedly coupled with fore side fixed block 7；Adjusting knob a1-1 and spring a2-1 is through the middle part of transit axle a4-1 before and after described, with Axle a4-1 is concentric for transit；The spring a2-1 be limited in the confined planes in before and after adjusting knob a1-1 and fore side fixed block 7 it Between；Described resilient key a5-1 one end is fixedly connected with transit axle 4, and the other end is through the sliding elongated slot of before and after adjusting knob a1-1 In a1-1-1；Described alignment pin a3-1 one end is fixed in the hole position on fore side fixed block 7, and the other end is through adjusting knob 1 In upper corresponding spacing hole a1-1-2.（See Fig. 2）

Left and right adjusting structure described above includes spring b2-2, resilient key b5-2, horizontal rotating shaft 6, left and right adjusting knob 8 and gear Lid 9；One end of the horizontal rotating shaft 6 is threadedly coupled with fore side fixed block 7, and the other end of horizontal rotating shaft 6 is fixedly connected with door 9； The spring b2-2 and left and right adjusting knob 8 are through in horizontal rotating shaft 6；The spring b2-2 is limited in left and right adjusting knob 8 Confined planes and door 9 between；Described resilient key b5-2 one end is through in horizontal rotating shaft 6, and the other end is through left and right adjusting knob 8 In sliding elongated slot b8-1；Described alignment pin b3-2 one end is fixed in the hole position on fore side fixed block 7, and the other end is through left and right In spacing hole b8-2 corresponding on adjusting knob 8.（See Fig. 2）

Transmission side front and rear regulation structure described above include before and after adjusting knob b1-2, spring c2-3, alignment pin c3-3, vertical Rotating shaft b4-2 and resilient key c5-3；One end of the transit axle b4-2 rotates according to bearing with transmission side fixed block 10 and is connected, another End is threadedly coupled with transmission side fixed block 10；Adjusting knob b1-2, spring c2-3 are through the middle part of transit axle b4-2 before and after described, The spring c2-3 is limited between the confined planes in before and after adjusting knob b1-2 and transmission side fixed block 10；The resilient key C5-3 one end is through on transit axle b4-2, and the other end is through in the sliding elongated slot c1-2-1 of before and after adjusting knob b1-2；It is described fixed Position pin c3-3 one end is fixed in the hole position on transmission side fixed block 10, and the other end is through corresponding on before and after adjusting knob b1-2 Spacing hole c1-2-2 in.（See Fig. 3）

Compressing structure described above includes spring d2-4, resilient key d5-4 and horizontal limit rotary shaft 11；The horizontal limit rotary shaft 11 are slidably connected with transmission side fixed block 10；The spring d2-4 is through in horizontal limit rotary shaft 11, is limited in horizontal limit rotary shaft 11 Limiting stand 11-1 and transmission side fixed block 10 between；Described resilient key d5-4 one end is through in horizontal limit rotary shaft 11, the other end It is through in the sliding elongated slot d10-1 on transmission side fixed block 10.（See Fig. 3）

A kind of method of work of the micromatic setting of above-mentioned lower bolster, it is characterised in that comprise the following steps that：

（1）The fore-and-aft direction fine-tuning mode of lower bolster fore side：Will before and after adjusting knob a1-1 to remotely located pin a3-1 A side shifting, depart from alignment pin a3-1 and spacing hole a1-1-2, now spring a2-1 is compressed, adjusting knob before and after rotation A1-1, by the screw thread mating reaction of transit axle a4-1 and fore side fixed block 7, makes transit axle a4-1 and fore side fixed block 7 Fore-and-aft direction has relative motion, so that the fore side fore-and-aft direction position of lower bolster changes；When adjusting to appropriate location When, stop the rotation, in the presence of spring a2-1 restoring forces, in front and back adjusting knob a1-1 is pushed to alignment pin a3-1 sides, fixed Position pin a3-1 is inserted in corresponding spacing hole a1-1-2, realizes that locking is spacing；

（2）The fore-and-aft direction fine-tuning mode of lower bolster transmission side：Will before and after adjusting knob b1-2 to remotely located pin c3-3 A side shifting, depart from alignment pin c3-3 and spacing hole c1-2-2, now spring c2-3 is compressed, adjusting knob before and after rotation B1-2, by the screw thread mating reaction of transit axle b4-2 and transmission side fixed block 10, makes transit axle b4-2 and transmission side fixed block 10 fore-and-aft directions have relative motion, so that the transmission side fore-and-aft direction position of lower bolster changes；Reply in spring c2-3 In the presence of power, in front and back adjusting knob b1-2 is pushed to alignment pin c3-3 sides, and alignment pin c3-3 insertions are corresponding spacing In the c1-1-2 of hole, realize that locking is spacing；

（3）Lower bolster left and right directions fine-tuning mode：Left and right adjusting knob 8 is pulled outwardly, alignment pin b3-2 and spacing hole b8- 2 depart from, and now spring b2-2 is compressed, and due to the screw thread mating reaction of horizontal rotating shaft 6 and fore side fixed block 7, rotation left and right is adjusted Section knob 8 causes fore side fixed block 7 to change with the relative position of horizontal rotating shaft 6, so that the phase of lower bolster left and right directions Position is changed；Meanwhile, horizontal limit rotary shaft 11 changes with the relative position of transmission side fixed block 10, waits to be adjusted to properly Behind position, left and right adjusting knob 8 is unclamped, alignment pin b3-2 is inserted in corresponding spacing hole b8-2, in spring c2-3 and bullet Locking is fixed in the collective effect of spring d2-4, the position of lower bolster 12.

Claims (4)

1. a kind of micromatic setting of lower bolster, including lower bolster, it is characterised in that it also includes fore side governor motion and transmission Side governor motion, fore side governor motion is fixedly mounted on the fore side of lower bolster, and transmission side governor motion is fixedly mounted on down The transmission side of backing plate；

The fore side governor motion is by fore side fixed block, fore side front and rear regulation structure and left and right adjusting structure composition, behaviour Make side front and rear regulation structure and left and right adjusting structure is installed on fore side fixed block；

The fore side front and rear regulation structure includes adjusting knob a, spring a, alignment pin a, transit axle a and resilient key a in front and back；Institute The one end for stating transit axle a is connected with fore side fixed block according to bearing rotation, and the other end is threadedly coupled with fore side fixed block；It is described In front and back adjusting knob a and spring a are through the middle part of transit axle a, concentric with transit axle a；The spring a adjusts rotation before and after being limited in Between confined planes and fore side fixed block in button a；Described resilient key a one end is fixedly connected with transit axle, before the other end is through Afterwards in the sliding elongated slot a of adjusting knob a；Described alignment pin a one end is fixed in the hole position on fore side fixed block, and the other end is worn On Qian Hou adjusting knob a in corresponding spacing hole a；

The transmission side governor motion is made up of transmission side fixed block, transmission side front and rear regulation structure and compressing structure, transmission side Front and rear regulation structure and compressing structure are installed on transmission side fixed block；

The transmission side front and rear regulation structure includes adjusting knob b, spring c, alignment pin c, transit axle b and resilient key c in front and back；Institute The one end for stating transit axle b is connected with transmission side fixed block according to bearing rotation, and the other end is threadedly coupled with transmission side fixed block；It is described In front and back adjusting knob b, spring c are through the middle part of transit axle b, the spring c be limited in the confined planes in before and after adjusting knob b and Between transmission side fixed block；Described resilient key c one end is through on transit axle b, and the sliding that the other end is through before and after adjusting knob b is long In groove c；Described alignment pin c one end is fixed in the hole position on transmission side fixed block, and the other end is through phase on before and after adjusting knob b In corresponding spacing hole c.

2. a kind of micromatic setting of lower bolster according to claim 1, it is characterised in that the left and right adjusting structure includes bullet Spring b, resilient key b, alignment pin b, horizontal rotating shaft, left and right adjusting knob and door；One end of the horizontal rotating shaft and fore side fixed block Threaded connection, the other end of horizontal rotating shaft is fixedly connected with door；The spring b and left and right adjusting knob are through in horizontal rotating shaft； The spring b is limited between the confined planes in left and right adjusting knob and door；Described resilient key b one end is through in horizontal rotating shaft, The other end is through in the sliding elongated slot b of left and right adjusting knob；Described alignment pin b one end is fixed on the hole position on fore side fixed block In, the other end is through in spacing hole b corresponding on left and right adjusting knob.

3. a kind of micromatic setting of lower bolster according to claim 1, it is characterised in that the compressing structure include spring d, Resilient key d and horizontal limit rotary shaft；The horizontal limit rotary shaft is slidably connected with transmission side fixed block；The spring d is through horizontal spacing In rotating shaft, it is limited between the limiting stand of horizontal limit rotary shaft and transmission side fixed block；Described resilient key d one end is through horizontal spacing turn On axle, the other end is through in the sliding elongated slot d on transmission side fixed block.

4. the method for work of the micromatic setting of lower bolster described in a kind of claim 1, it is characterised in that comprise the following steps that：

(1) the fore-and-aft direction fine-tuning mode of lower bolster fore side：By a side shifting from Qian Hou adjusting knob a to remotely located pin a, Depart from alignment pin a and spacing hole a, now spring a is compressed, adjusting knob a before and after rotation, by transit axle a and fore side The screw thread mating reaction of fixed block, makes transit axle a have relative motion with fore side fixed block fore-and-aft direction, so that lower bolster Fore side fore-and-aft direction position changes；When adjusting to appropriate location, stop the rotation, in the presence of spring a restoring forces, In front and back adjusting knob a is pushed to alignment pin a sides, and alignment pin a is inserted in corresponding spacing hole a, realizes that locking is spacing；

(2) the fore-and-aft direction fine-tuning mode of lower bolster transmission side：By a side shifting from Qian Hou adjusting knob b to remotely located pin c, Depart from alignment pin c and spacing hole c, now spring c is compressed, adjusting knob b before and after rotation, by transit axle b and transmission side The screw thread mating reaction of fixed block, makes transit axle b have relative motion with transmission side fixed block fore-and-aft direction, so that lower bolster Transmission side fore-and-aft direction position changes；In the presence of spring c restoring forces, in front and back adjusting knob b is pushed to alignment pin c mono- Side, alignment pin c is inserted in corresponding spacing hole c, realizes that locking is spacing；

(3) lower bolster left and right directions fine-tuning mode：Left and right adjusting knob is pulled outwardly, alignment pin b and spacing hole b departs from, now Spring b is compressed, and due to the screw thread mating reaction of horizontal rotating shaft and fore side fixed block, rotation left and right adjusting knob causes fore side Fixed block changes with the relative position of horizontal rotating shaft, so that the relative position of lower bolster left and right directions changes；Meanwhile, Horizontal limit rotary shaft changes with the relative position of transmission side fixed block, after correct position is adjusted to, unclamps left and right adjusting knob, Alignment pin b is inserted in corresponding spacing hole b, and in spring c and the collective effect of spring d, the position of lower bolster is by fixing lock Tightly.