CN205416794U - Drilling drive structure and full -automatic binding machine - Google Patents

Abstract

The utility model relates to a drilling drives the structure and uses a full -automatic binding machine of this drilling drive structure, including frame, the seat that goes up and down, motor, drilling pivot and brill sword and vertical screw rod, the motor is fixed in the frame, output shaft drills the pivot and vertical screw rod rotates simultaneously, wherein: the last elevating platform that separation and reunion relatively when the elevating movement was drawn together to the lift stationary ladle and the support that punches, be equipped with the separator that the separation is switched over among them, but drilling pivot turning position connect at the upper and lower end of support that punches and bore the sword, go up on the elevating platform is equipped with screw liftable spiro union vertical screw rod, go up lifting platform connection punch support the punch motion and the motion that upwards restores to the throne downwards, go up in the back that restores to the throne and can continue the upward movement after the elevating platform is separating the switching through separator with the support that punches. The utility model provides a lift seat of separation and reunion can continue the upward movement pulling and rivets pole rivet after the separation is switched relatively, and compression drilling pivot is required upwards extends the height to the high realization processing reduced size of organism and reduce cost's technological effect have been reduced.

Description

Boring drives structure and automatic bookbinding machine

Technical field

This utility model relates to binder, drives structure and automatic bookbinding machine particularly to boring.

Background technology

A kind of drilling equipment of the Application No. 2015103376285 in the applicant's application and automatic bookbinding machine, the motor by being fixed in frame is provided to provide power source, rotated by the vertical screw rod of driven by motor and boring rotating shaft simultaneously, rotate vertical screw rod and make elevating bracket oscilaltion campaign, drive the boring rotating shaft elevating movement being rotatably positioned in elevating bracket, it is achieved boring axis of rotation the technique effect that can lift.This drilling equipment, including frame, elevating bracket, the first motor, boring rotating shaft and drill, wherein: frame is additionally provided with rotating vertical screw rod, elevating bracket is provided with screw, elevating bracket is screwed onto on vertical screw rod by screw liftable, rotating shaft is rotatably connected with elevating bracket, lower end is connected drill in boring, and motor is fixed in frame, output shaft connects boring rotating shaft and vertically screw rod rotates simultaneously.Wherein can OQ t and being rotationally connected between boring rotating shaft upper end and frame.When motor rotates forward and rotates, the power output shaft of motor drives boring rotating shaft and vertical screw rod to rotate simultaneously, the screw that the vertical screw rod rotated is spirally connected therewith makes elevating bracket make vertical lowering motion, drives the boring rotating shaft rotated and drill vertical lowering motion to hole by the elevating bracket of descending motion.After drill drills binding material, controller controls the first motor reversal and rotates, the power output shaft of the first motor drives boring rotating shaft and vertical screw rod to rotate backward simultaneously, the screw that the vertical screw rod rotated is spirally connected therewith makes elevating bracket make vertical ascending motion, drives the boring rotating shaft rotated and drill vertical ascent to reset by the elevating bracket of ascending motion.Realize the single motor integration fixing with frame and interlock the technique effect lifting boring in rotation.

Die rivet pulling device and automatic bookbinding machine under the one of the Application No. 2015103456025 in the applicant's application, a kind of lower die rivet pulling device and automatic bookbinding machine upwards being interlocked staking by boring elevating bracket is provided, including the first motor in frame, elevating bracket, vertically guide pillar, lower die and switching device, elevating bracket is positioned at vertical guide pillar top and is moved by the first motor belt motor action vertical lifting, lower die is arranged in switching device, can horizontally and vertically be moved by switching device, wherein: between elevating bracket and switching device, be provided with vertical staking bar, switching device is pulled to move straight up when elevating bracket rises.This structure realizes directly utilizing the power of bore motor, when making elevating bracket be in reset (initially) state after completing boring, remake upwards vertical motion, bring up staking bar and the handoff block upwards staking of staking bar lower end by boring elevating bracket, heat upper and lower die and make bookbinding riveting pipe upper and lower side form the die tight binding thing of bookbinding.Handoff block is now stirred connecting rod along vertical guide pillar and rotation and is made elevating movement.The handoff block being horizontally movable makees relative horizontal movement relative to staking bar, handoff block is by including that horizontal movement makes lower die be positioned at two different positions, i.e. with pipe installation send the vertically opposite position of socket and position vertically opposite with upper die, horizontally rotate or be pushed to position vertically opposite with upper die carry out pulling up riveter sequence by receiving the bookbinding riveting pipe that pipe installation send socket to be cut, form die realize the technique effect of stapled binding thing by making the bookbinding riveting pipe on lower die be drawn up in the binding hole of binding thing and carrying out heating upper and lower two ends.There is the simple technique effect of serial verb construction.

Boring rotating shaft and vertical screw rod in above-mentioned two patent structures rotate simultaneously, it is achieved boring when overall elevating bracket declines, rising interlock the purpose of staking when resetting and continue up, and lift owing to boring and staking interlock elevating bracket jointly.Rotating shaft of holing when continuing up staking need to continue up rising simultaneously, there is boring rotating shaft stroke long and need to increase the height of body, i.e. pulls staking bar to continue the height risen at elevating bracket.

Therefore, compressor body height, becomes problem demanding prompt solution the most further.Upwardly extending highly needed for realizing compression tradition lifting screw, thus realize decreasing the technique effect of the height of body.

Utility model content

The technical problems to be solved in the utility model is to provide and relatively can continue up after separating switching and pull a kind of boring of rivet rod staking to drive structure by the elevating bracket of clutch, upwardly extending highly needed for compression boring rotating shaft, thus the height decreasing body realizes processing and reduces volume and the technique effect of reduction cost.This utility model provides the automatic bookbinding machine using this boring to drive structure simultaneously.

For solving above-mentioned technical problem, a kind of boring of the present utility model drives structure, including frame, elevating bracket, motor, boring rotating shaft and drill and vertical screw rod, motor is fixed in frame, output shaft connects boring rotating shaft and vertical screw rod rotates simultaneously, wherein: can the upper lifting platform of clutch and punching support relatively when elevating bracket is included in elevating movement, it is provided with the segregation apparatus separating switching therebetween, boring rotating shaft is rotatably positioned on punching support, lower end connects drill, upper lifting platform is provided with screw liftable and is spirally connected on vertical screw rod, upper lifting platform connection punching support punches downwards and moves and upwards reseting movement, go up lifting platform after the reset can be continued up after separating switching with punching support by segregation apparatus.

Use this utility model of technique scheme, power source is provided by the first motor being fixed in frame, rotated by the vertical screw rod of driven by motor and boring rotating shaft simultaneously, rotate vertical screw rod and drive upper lifting platform oscilaltion campaign, upper lifting platform promotes elevating movement in punching support and the boring axis of rotation that is positioned on punching support when elevating movement, i.e. go up lifting platform drive punching support descending motion punching and rise reset, upper lifting platform connection punching support punches downwards and moves and upwards reseting movement, after punching support resets, upper lifting platform can be continued up with punching support by segregation apparatus after separating switching.Vertically screw rod drives upper lifting platform individually to rise and pulls staking bar upwards, pulls the lower die connected in staking bar lower end to interlock and upwards heats staking.Realize constituting the upper lifting platform of relative clutch and punching support after separating switching, upper lifting platform can continue up and pull a kind of boring of rivet rod staking to drive structure, boring rotating shaft is followed by rising fall platform upwards staking, thus upwardly extend height required for compressing former boring rotating shaft, thus the height decreasing body realizes processing and reduces volume and reduce the technique effect of cost.

During specific works, when motor rotates forward and rotates, the power output shaft of motor drives boring rotating shaft and vertical screw rod to rotate simultaneously, the screw that is spirally connected therewith of vertical screw rod rotated makes lifting platform make vertical lowering motion, is promoted in punching support and the boring axis of rotation that is positioned on punching support by the upper lifting platform of descending motion and declines boring.After drill drills binding material, controller controls motor reversal and rotates, the power output shaft of motor drives boring rotating shaft and vertical screw rod to rotate backward simultaneously, the screw that is spirally connected therewith of vertical screw rod rotated makes lifting platform make vertical ascending motion, pulls to rise in punching support and the boring axis of rotation that is positioned on punching support by the upper lifting platform of ascending motion and resets.Separating switching by segregation apparatus with punching support by upper lifting platform after reset, after separating switching, vertically screw rod drives upper lifting platform to continue up, and upper lifting platform individually rises the lower die pulling staking bar and staking bar lower end to connect and interlocks upwards staking.

Further improvement of the utility model scheme:

Above-mentioned boring drives structure, and upper lifting pedestal is located on punching support.Realize long fall platform presses down punching support to move downward when declining.

Above-mentioned boring drives structure, segregation apparatus includes vertical guide pillar, cross sliding clock, spring, guide bearing and hook, vertically guide pillar is arranged in the frame of punching support side, middle part is provided with the groove that can house guide bearing, cross sliding clock is horizontally slidable is positioned at punching support side, spring connects punching support and cross sliding clock, guide bearing is arranged on cross sliding clock, plane of rotation compresses vertical guide pillar, hook is arranged on lifting platform side, can move upward and be reset to and groove level of relative position by hook guide bearing.Cross sliding clock is positioned at punching support side and is horizontally movable, and the bearing that its front end is arranged keeps the opposite side wall being adjacent to vertical guide pillar by spring force, realizes being vertically directed by vertical guide pillar.The hook of upper lifting platform side hangs bearing and rises gearing, upper lifting platform pulls bearing movable to (being punching frame and boring rotating shaft and the initial position of bearing) during groove phase para-position in the middle part of vertical guide pillar, bearing departs from hook, punching frame and boring rotating shaft and is positioned at elemental height position by the bearing in detent while slipping in groove.Upper lifting platform from rear with punching frame, can continue up the lower die pulling staking bar and staking bar lower end to be connected and interlock upwards staking.Form upper lifting platform by vertical guide pillar and punching frame vertical lifting guides, it is ensured that the technique effect of elevating bracket balance lifting motion.

Above-mentioned boring drives structure, boring rotating shaft is provided with axial slippage slot, slippage slot is set in turning set, turning set rotatably positions with frame, turning set key connecting slippage slot slides in wherein liftable, vertically screw rod upper end is provided with rotation belt wheel, and motor connects turning set respectively and rotation belt wheel rotates simultaneously.By the axially arranged slippage slot along boring rotating shaft, make the slippage slot of boring rotating shaft realize in turning set key connecting rotation linkage, simultaneously can OQ t sliding motion.Vertically screw rod is driven the screw being spirally connected therewith to make lifting platform make vertical displacement movement, and upper lifting platform drives elevator platform and the slippage slot of rotating shaft of holing that is rotatably positioned in frame relative to turning set elevating movement.Wherein the connection between slippage slot and turning set can be bonded, it is also possible to is that the non-circular odd-shaped cross sections such as D-shaped face, kidney-shaped face, polygon facet connect.

Above-mentioned boring drives structure, and boring rotating shaft is interspersed in punching support, is provided with bearing and rotatably positions between boring rotating shaft and punching support.Connect realization boring rotating shaft by bearing to be rotatably positioned in punching support.

Above-mentioned boring drives structure, is provided with bearing and rotatably positions between turning set and frame.Realize turning set by bearing connection and be rotatably positioned at upper rack.

Above-mentioned boring drives structure, is provided with the fixing connection of the nut of band screw, nut and upper lifting platform in upper lifting platform.

Above-mentioned boring drives structure, is provided with bearing and rotatably positions between the upper and lower two ends of vertical screw rod and frame.

Above-mentioned boring drives structure, links up with L-shaped, hook vertical edge is paralleled with vertical guide pillar, sandwiched guide bearing therebetween, hook horizontal sides free end and vertical guide pillar level of relative.

nullA kind of automatic bookbinding machine，Structure is driven including described boring，This mechanism also includes the second motor、Paper pressing device、Upper rivet hot head、Edge bearing and lower rivet hot head、Vertically staking bar and pipe installation，Frame arranges vertical guide pillar and horizontal countertop，Paper pressing device is positioned between punching support and work top by platen spring liftable，Wherein: upper rivet hot head is arranged in paper pressing device and is horizontally movable，Edge bearing is arranged on work top and is horizontally movable，Lower rivet hot head is positioned at liftable and rotational motion on the vertical guide pillar on the downside of horizontal countertop，Upper rivet hot head、The first pivot link arranged between edge bearing and lower rivet hot head rotates linkage，Second motor connects the first upper horizontal displacement campaign between rivet hot head and edge bearing of pivot link switching、Drive lower rivet hot head horizontal movement，Vertically staking bar connects upper lifting platform and lower rivet hot head，Pull lower rivet hot head to move straight up when upper lifting platform rises.

After this utility model uses said structure, the first pivot link also by single second motor and its transmission just can realize rotating between upper rivet hot head, edge bearing and lower rivet hot head linkage, horizontal displacement campaign between rivet hot head and edge bearing in realization, drive lower rivet hot head to rotate dislocation motion, there is the technique effect of serial verb construction advantages of simple, stable transmission.Upper rivet hot head is making longitudinal horizontal movement switching along paper pressing block, and during punching, upper rivet hot head automatic shift backward switches to dodge drill, and during rivet hot riveting pipe, upper rivet hot head automatic shift forward switches to vertically opposite with lower rivet hot.By arranging the edge bearing of lengthwise movement switching on work top, ensure pad drill when drill is punched, switch to dodge upper and lower rivet hot feverish sensation in the head riveting opposing upper and lower by automatic shift after having punched.The handoff block being horizontally movable makees relative horizontal movement relative to the radial direction of staking bar, and handoff block makes lower rivet hot head be positioned at two different positions by horizontal movement, i.e. with pipe installation send the vertically opposite position of socket and position vertically opposite with upper rivet hot.After sending the vertically opposite position of socket to receive the bookbinding riveting pipe that pipe installation is cut, it is switched to position vertically opposite with upper rivet hot by horizontally rotating or promoting.Now, elevating bracket is in initial reset state after completing boring, in the driven by motor on top, lifting platform remakes upwards vertical motion, upper lifting platform drives the staking bar interlocked to pull the lower rivet hot head having been achieved with riveting pipe upwards to carry out staking operation, by the bookbinding on lower rivet hot head, riveting pipe is drawn up in the binding hole of binding thing, upper and lower die adds the upper and lower two ends of rivet hot pipe, it is achieved the riveting dress of binding thing.

This utility model compared with prior art has an advantage that to have serial verb construction simple, compact, rationally distributed, switching flexibly, transmission rationally, stable connection and the advantage such as linkage is effective.

Accompanying drawing explanation

Below in conjunction with the specific embodiment in accompanying drawing, this utility model is described in further detail, but does not constitute any restriction of the present utility model.

Fig. 1 is this utility model Facad structure schematic diagram when original state；

Fig. 2 is this utility model left view structural representation when original state；

Fig. 3 is the A-A cross-sectional view of Fig. 1；

Fig. 4 is the B-B cross-sectional view of Fig. 2；

Fig. 5 is the C-C cross-sectional view of Fig. 2；

Fig. 6 is the D-D cross-sectional view of Fig. 2；

Fig. 7 is this utility model at punching state Facad structure schematic diagram constantly；

Fig. 8 is this utility model left view structural representation when the state of punching；

Fig. 9 is the A-A cross-sectional view of Fig. 7；

Figure 10 is the B-B cross-sectional view of Fig. 8；

Figure 11 is the C-C cross-sectional view of Fig. 8；

Figure 12 is the D-D cross-sectional view of Fig. 8；

Figure 13 is that this utility model is applied as the automatic bookbinding machine Facad structure schematic diagram when original state；

Figure 14 is that this utility model is applied as the automatic bookbinding machine left view structural representation when original state；

Figure 15 is the A-A cross-sectional view of Figure 13；

Figure 16 is the B-B cross-sectional view of Figure 14；

Figure 17 is the C-C cross-sectional view of Figure 14；

Figure 18 is the D-D cross-sectional view of Figure 14；

Figure 19 is that this utility model applies the Facad structure schematic diagram being automatic bookbinding machine when the state of punching；

Figure 20 is that this utility model applies the left view structural representation being automatic bookbinding machine when the state of punching；

Figure 21 is the A-A cross-sectional view of Figure 19；

Figure 22 is the B-B cross-sectional view of Figure 20；

Figure 23 is the C-C cross-sectional view of Figure 20；

Figure 24 is the D-D cross-sectional view of Figure 20；

Figure 25 is that this utility model is applied as the automatic bookbinding machine Facad structure schematic diagram when staking state；

Figure 26 is that this utility model is applied as the automatic bookbinding machine left view structural representation when staking state；

Figure 27 is the A-A cross-sectional view of Figure 25；

Figure 28 is the B-B cross-sectional view of Figure 26；

Figure 29 is the C-C cross-sectional view of Figure 26；

Figure 30 is the D-D cross-sectional view of Figure 26.

Detailed description of the invention

As shown in Fig. 1～Figure 12, a kind of boring drives structure, including frame 1, elevating bracket 2, motor 3, boring rotating shaft 4 and drill 5 and vertical screw rod 6, motor 3 is fixed in frame 1, output shaft connects boring rotating shaft 4 and vertical screw rod 6 rotates simultaneously, can the upper lifting platform 21 of clutch and punching support 22 relatively when elevating bracket 2 is included in elevating movement, it is provided with the segregation apparatus 7 separating switching therebetween, boring rotating shaft 4 is rotatably positioned on punching support 22, lower end connects drill 5, upper lifting platform 21 is provided with screw 21a liftable and is spirally connected on vertical screw rod 6, upper lifting platform 21 connects punching support 22 and punches downwards motion and upwards reseting movement, go up lifting platform 21 after the reset can be continued up after separating switching with punching support 22 by segregation apparatus 7.

Upper lifting platform 21 is located on punching support 22.

Segregation apparatus 7 includes vertical guide pillar 71, cross sliding clock 72, spring 73, guide bearing 74 and hook 75, vertically guide pillar 71 is arranged in the frame of punching support 22 side, middle part is provided with the groove 71a that can house guide bearing 74, cross sliding clock 72 is horizontally slidable is positioned at punching support 22 side, spring 73 connects punching support 22 and cross sliding clock 72, guide bearing 74 is arranged on cross sliding clock 72, plane of rotation compresses vertical guide pillar 71, hook 75 is arranged on lifting platform 21 side, can move upward and be reset to and groove 71a level of relative position by hook guide bearing 74.

Boring rotating shaft 4 is provided with axial slippage slot 41, slippage slot 41 is set in turning set 42, turning set 42 rotatably positions with frame 1, turning set 42 key connecting slippage slot 41 slides in wherein liftable, vertically screw rod 6 upper end is provided with rotation belt wheel 61, and motor 3 connects turning set 42 respectively and rotation belt wheel 61 rotates simultaneously.

Boring rotating shaft 4 is interspersed in punching support 22, is provided with bearing and rotatably positions, be provided with bearing and rotatably position between turning set 42 and frame 1 between boring rotating shaft 4 and punching support 22.

Upper lifting platform 21 is provided with the nut of band screw 21a, nut and the fixing connection of upper lifting platform 21.

Vertically it is provided with bearing between screw rod about 6 two ends and frame 1 rotatably to position.

Link up with 75 L-shaped, link up with 75 vertical edges parallel with vertical guide pillar 71, sandwiched guide bearing 74 therebetween, link up with 75 horizontal sides free ends and vertical guide pillar 71 level of relative.

The output shaft of motor 3 is provided with coaxial upper and lower driving pulley 31,32, upper driving pulley 31 with rotate belt wheel 61 level of relative, be provided with rotational band linkage therebetween, lower driving pulley 32 and turning set 42 level of relative, be provided with rotational band linkage therebetween.

nullAs shown in Figure 13～Figure 30，A kind of automatic bookbinding machine，Structure is driven including described boring，Also include vertical staking bar 5a、Second motor 1b、Paper pressing device 3a、Upper rivet hot head 3b and edge bearing 4a、Lower rivet hot head 5b and pipe installation，Frame 1 arranges vertical guide pillar 2b and horizontal countertop 1a，Elevating bracket 2 liftable is positioned on vertical guide pillar 2b，Paper pressing device 3a is positioned between punching support 22 and work top 1a by platen spring 3e liftable，Upper rivet hot head 3b is arranged in paper pressing device 3a and is horizontally movable，Edge bearing 4a is arranged on work top 1a and is horizontally movable，Lower rivet hot head 5b is positioned at liftable and rotational motion on the vertical guide pillar 2b on the downside of horizontal countertop 1a，Upper rivet hot head 3b、The the first pivot link 5e arranged between edge bearing 4a and lower rivet hot head 5b rotates linkage，Second motor 1b connects horizontal displacement campaign between rivet hot head 3b and edge bearing 4 in the first pivot link 5e switching、Drive lower rivet hot head 5b horizontal movement，Vertically lifting platform 21 and lower rivet hot head 5b in staking bar 5a connection，Pull lower rivet hot head 5b to move straight up when upper lifting platform 21 rises.

This utility model is when specific works, when motor 3 rotates forward and rotates, the power output shaft of motor 3 drives boring rotating shaft 4 and vertical screw rod 6 to rotate simultaneously, the screw 21a that is spirally connected therewith of vertical screw rod 6 rotated makes lifting platform 21 make vertical lowering motion, promotes punching support 22 and the boring rotating shaft 4 that is positioned on punching support 22 to decline boring in rotating by the upper lifting platform 21 of descending motion.While wherein punching support 22 declines drive drill 5 decline punching, compressing platen spring 3e makes to be positioned at the paper pressing device 3a in the middle part of platen spring 3e and downwards and compresses binding thing, pipe installation drives left vertically guide rod to decline when dropping to setting position by upper lifting platform 21, thus promotes the cutting knife of pipe installation to cut off riveting pipe.

After drill drills binding material, controller controls motor 3 reversion and rotates, the power output shaft of motor 3 drives boring rotating shaft 4 and vertical screw rod 6 to rotate backward simultaneously, the screw 21a that is spirally connected therewith of vertical screw rod 6 rotated makes lifting platform 21 make vertical ascending motion, pulls punching support 22 and the boring rotating shaft 4 that is positioned on punching support 22 to rise in rotating by the upper lifting platform 21 of ascending motion and resets.Switching is being separated by segregation apparatus 7 with punching support 22 by upper lifting platform 21 after reset, after separation switching, vertically screw rod 6 drives upper lifting platform 21 to continue up, and upper lifting platform 21 individually rises the lower rivet hot head 5b pulling vertical staking bar 5a and vertical staking bar 5a lower end to connect and interlocks upwards staking.

In sum, this utility model, such as description and diagramatic content, makes actual sample and through test is used for multiple times, and in terms of the effect using test, provable this utility model can reach the purpose that it is desired, and practical value is unquestionable.Embodiment provided above is only used for convenient illustration this utility model.Drilling equipment of the present utility model, can apply to, in all kinds of puncher, include but not limited to the automatic bookbinding machine described by this utility model.Not this utility model is made any pro forma restriction, any art has usually intellectual, if in the range of without departing from the carried technical characteristic of this utility model, this utility model disclosed technology content is utilized to be made the Equivalent embodiments that local is changed or modified, and without departing from technical characteristic content of the present utility model, all still fall within the range of this utility model technical characteristic.

Claims (10)

1. null1. a boring drives structure，Including frame (1)、Elevating bracket (2)、Motor (3)、Boring rotating shaft (4) and drill (5) and vertical screw rod (6)，Motor (3) is fixed in frame (1)、Output shaft connects boring rotating shaft (4) and vertical screw rod (6) rotates simultaneously，It is characterized in that: can the upper lifting platform (21) of clutch and punching support (22) relatively when elevating bracket (2) is included in elevating movement、It is provided with the segregation apparatus (7) separating switching therebetween，Boring rotating shaft (4) is rotatably positioned on punching support (22)、Lower end connects drill (5)，Upper lifting platform (21) is provided with screw (21a) liftable and is spirally connected on vertical screw rod (6)，Upper lifting platform (21) connects punching support (22) punching motion downwards and upwards reseting movement，Go up lifting platform (21) after the reset can be continued up after separating switching with punching support (22) by segregation apparatus (7).
2. Boring the most according to claim 1 drives structure, it is characterised in that: upper lifting platform (21) seat is located on punching support (22).
3. nullBoring the most according to claim 1 and 2 drives structure，It is characterized in that: segregation apparatus (7) includes vertical guide pillar (71)、Cross sliding clock (72)、Spring (73)、Guide bearing (74) and hook (75)，Vertically guide pillar (71) is arranged in the frame of punching support (22) side、Middle part is provided with the groove (71a) that can house guide bearing (74)，Cross sliding clock (72) is horizontally slidable is positioned at punching support (22) side，Spring (73) connects punching support (22) and cross sliding clock (72)，Guide bearing (74) is arranged on cross sliding clock (72)、Plane of rotation compresses vertical guide pillar (71)，Hook (75) is arranged on lifting platform (21) side，Can hook guide bearing (74) move upward be reset to groove (71a) level of relative position.
4. Boring the most according to claim 1 drives structure, it is characterized in that: boring rotating shaft (4) is provided with axial slippage slot (41), slippage slot (41) is set in turning set (42), turning set (42) rotatably positions with frame (1), turning set (42) key connecting slippage slot (41) slides in wherein liftable, vertically screw rod (6) upper end is provided with rotation belt wheel (61), and motor (3) connects turning set (42) respectively and rotation belt wheel (61) rotates simultaneously.
5. Boring the most according to claim 1 drives structure, it is characterized in that: boring rotating shaft (4) is interspersed in punching support (22), it is provided with bearing between boring rotating shaft (4) and punching support (22) rotatably to position, is provided with bearing between turning set (42) and frame (1) and rotatably positions.
6. Boring the most according to claim 1 drives structure, it is characterised in that: upper lifting platform (21) is provided with the fixing connection of the nut of band screw (21a), nut and upper lifting platform (21).
7. Boring the most according to claim 1 drives structure, it is characterised in that: vertical screw rod (6) is provided with bearing between two ends and frame (1) up and down and rotatably positions.
8. Boring the most according to claim 3 drives structure, it is characterized in that: hook (75) is L-shaped, hook (75) vertical edge is paralleled with vertical guide pillar (71), sandwiched guide bearing (74) therebetween, hook (75) horizontal sides free end and vertical guide pillar (71) level of relative.
9. Boring the most according to claim 4 drives structure, it is characterized in that: the output shaft of motor (3) is provided with coaxial upper and lower driving pulley (31,32), upper driving pulley (31) with rotate belt wheel (61) level of relative, be provided with rotational band linkage therebetween, lower driving pulley (32) and turning set (42) level of relative, be provided with rotational band linkage therebetween.
10. 10. an automatic bookbinding machine, it is characterised in that: include that the arbitrary described boring of claim 1 to 9 drives structure.