CN215792763U - Book vertical conversion device - Google Patents

Abstract

The utility model relates to the technical field of book conveying, in particular to a book vertical conversion device, which comprises a turnover rack and a material stirring rack, wherein a turnover feeding mechanism is arranged on the turnover rack, and a material stirring mechanism is arranged on the material stirring rack; the material stirring rack comprises a pair of turnover mounting plates which are arranged in parallel, a plurality of turnover plates are coaxially mounted on a rotating shaft, and a turnover feeding mechanism jacks up a book to change the placing angle of the book; the material stirring mechanism receives books after overturning areas in the overturning feeding mechanism, the material stirring mechanism comprises a plurality of guide rods arranged between material stirring frames, the two ends of each guide rod are slidably arranged on the material stirring frames, a sliding seat is horizontally and slidably arranged on each guide rod, the sliding seat stretches out towards the front end to form a material stirring head mechanism, the material stirring head mechanism stirs the books in the material stirring areas to the next process along the X direction of the material stirring frames, the whole process does not need manual carrying, the books can be turned into standing states, then the material stirring carrying is carried out, the cost of manual carrying is reduced, and the conveying efficiency is improved.

Description

Book vertical conversion device

Technical Field

The utility model relates to the technical field of book conveying, in particular to a book vertical conversion device.

Background

The books need to be boxed after being printed and bound, because the printed quantity of the books is large, in order to facilitate binding a large number of books, the books are generally produced automatically, wherein a book conveying device is arranged to convey the books to a designated position;

current conveyor all is carried books tiling on the conveyer belt, is unfavorable for the vanning like this, is unfavorable for carrying out rubberizing, pressfitting processing operation to the books surface, generally all turns into the state of standing through the manual work with books, so not only expends a large amount of labours, and turnover efficiency is not high moreover.

Therefore, it is necessary to provide a vertical book converting apparatus.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a book vertical conversion device aiming at the defects of the prior art.

In order to achieve the purpose, the technical scheme of the utility model is as follows:

the book vertical conversion device comprises a turnover rack and a material stirring rack vertically arranged on the turnover rack, wherein the turnover rack is provided with a turnover feeding mechanism, and the material stirring rack is provided with a material stirring mechanism;

the material stirring rack comprises a pair of turnover mounting plates which are arranged in parallel, the turnover feeding mechanism comprises a rotating shaft which is horizontally mounted between the turnover mounting plates, a plurality of turnover plates are coaxially mounted on the rotating shaft, a plurality of turnover areas are formed on the periphery of each turnover plate in an equidistant array mode, each turnover area comprises two top surfaces which are perpendicular to each other, a plurality of conveying belt mechanisms are horizontally mounted at the top of each turnover mounting plate, and the conveying belt mechanisms and the turnover plates are arranged between the turnover mounting plates at intervals;

the material stirring mechanism receives books after overturning areas in the overturning feeding mechanism, the material stirring mechanism comprises a plurality of guide rods arranged between material stirring frames, the two ends of each guide rod are slidably arranged on the material stirring frames, a sliding seat is horizontally and slidably arranged on each guide rod, a material stirring head mechanism extends out of the sliding seat towards the front end, the two ends of each guide rod are provided with telescopic power mechanisms, the telescopic power mechanisms drive the guide rods to move in the Y direction of the material stirring frames, and rocker power mechanisms are arranged at the bottom of the material stirring frames and drive the sliding seats to move in the X direction of the material stirring frames.

Further: the interval between two adjacent conveyer belt mechanisms on the upset mounting panel is greater than the thickness of upset board, and the interval between two adjacent upset boards is greater than the width of conveyer belt mechanism, and the conveying surface of conveyer belt mechanism is parallel and level with one of them top surface in upset district.

Further: the conveying belt mechanism comprises a driving shaft arranged between the two overturning mounting plates, a driving wheel arranged in the overturning area and a conveying belt nested at the periphery of the driving shaft and the driving wheel, and the surface of the conveying belt is flush with one top surface of the overturning area.

Further: and transmission gear sets are arranged on the peripheries of the rotating shaft and the driving shaft and are connected with the driving shaft through couplers.

Further: dial stub bar mechanism and still include the regulation pole parallel with the guide arm that stretches out to slide one side level including the fixed stub bar of dialling of a pair of parallel arrangement that stretches out to the slide front end, slidable mounting has the slip to dial the material subassembly on the regulation pole, and the slip is dialled the material subassembly and is included dialling the stub bar to the slip that the frame front end of dialling stretches out, and the slip is dialled the material subassembly and is provided with the adjustment mechanism who adjusts and fix the interval between the stub bar.

Further: the telescopic power mechanism comprises pulley blocks arranged at two ends of the guide rod, a circular long groove matched with the pulley blocks in a sliding mode is formed in the material poking rack, the pulley blocks at the tail ends of the guide rod are installed in the circular long groove in a sliding mode, and a driving block is connected to the tail end of one guide rod.

Further: the rocker power mechanism comprises a limiting rod formed at the bottom of the sliding seat, the limiting rod is arranged in parallel with the Y direction of the material stirring rack, a driving rod is slidably mounted on the limiting rod, the driving rod extends obliquely to the bottom, a rocker which horizontally reciprocates in the X direction of the material stirring rack is arranged below the sliding seat, the top of the rocker is provided with the limiting rod which is the same as the bottom of the sliding seat, and two ends of the driving rod are respectively connected with the sliding seat and the rocker through the driving rod.

Further: the material stirring machine is characterized in that a vertically placed guide plate is arranged at the front end of the material stirring machine frame, racks are formed at two ends of the guide plate in an extending mode along the material stirring machine frame to the rear end, gears are arranged at two ends of the material stirring machine frame respectively, the gears are meshed with each other and arranged at the tops of the racks, the racks are long cylinders, sleeves are installed at two ends of the material stirring machine frame, and gears and gear-matched meshing grooves are formed in the tops of the sleeves.

Further: the guide plate stretches out forward and has a plurality of supporting cushion blocks that the interval set up, and supporting cushion block is vertical to be set up at the guide plate front end, and the guide plate below still is provided with the baffle, and slidable mounting has the riser that the interval set up on the baffle, and the riser is vertical with the supporting cushion block of top and aligns, and the clearance between two adjacent supporting cushion blocks is the same with the clearance between the riser.

Further: the width of the gap between the supporting cushion blocks is larger than that of the turnover plate, the supporting cushion blocks and the baffle plate are arranged between the fixed stirring head and the sliding stirring assembly, books on the turnover plate are conveyed to the baffle plate through the turnover feeding mechanism, and the supporting cushion blocks and the vertical plate support the side faces of the books respectively.

The utility model has the beneficial effects that: according to the book vertical conversion device, the conveying belt mechanism can be spliced and communicated with the front horizontal conveying device in a parallel and level mode, the horizontal top surface books in the turnover area are jacked up through the turnover plate, the books are supported by the vertical top surface after being turned for a certain angle, so that the placing angle of the books is changed, the material stirring area of the material stirring mechanism receives the books turned over in the turnover area in the turnover feeding mechanism, the books in the material stirring area are stirred to the next process along the X direction of the material stirring rack by the material stirring head mechanism, the books in the material stirring head mechanism cannot be collided when the books return, the processes are repeated in a circulating mode, manual conveying is not needed, the books can be conveyed, the cost of manual conveying is reduced, and the conveying efficiency is improved.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the kick-out mechanism of the present invention.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Fig. 4 is a schematic view of the material poking mechanism in the bottom view.

Fig. 5 is a schematic structural diagram of the turnover feeding mechanism of the present invention.

Fig. 6 is a schematic structural diagram of another view angle of the present invention.

The reference numerals include:

1-turnover feeding mechanism 101-turnover rack 102-turnover mounting plate

110-rotating shaft 111-bearing seat 112-transmission gear set 113-turnover plate

114-rollover area 1141-top surface

12-conveyor belt mechanism 121-drive shaft 122-transmission wheel 123-conveyor belt 124-gear mechanism

125-reduction gearbox mechanism

2-kick-off mechanism 21-kick-off frame 210-guide bar 211-slide

22-material shifting head mechanism 220-adjusting rod 221-fixed material shifting head 222-adjusting plate 223-mounting hole

224-material-ejecting zone 225-sliding material-ejecting component 226-adjusting mechanism 227-sliding material-ejecting head

228-kick-out connecting plate

23-rocker power mechanism 231-limiting block 232-limiting rod 233-driving rod 234-rocker

24-telescopic power mechanism 241-driving block 242-pulley block 243-circular long groove 244-second rocker

25-guide plate 250-support cushion block 251-rack 252-gear 253-long shaft 254-sleeve

255-engagement groove 256-knob handle 257-stop 258-riser 259-clearance.

Detailed Description

The present invention is described in detail below with reference to the attached drawings.

As shown in fig. 1-6, the book vertical conversion device includes a turning frame 101 and a material-stirring frame 21 vertically disposed on the turning frame 101, wherein the turning frame 101 is provided with a turning feeding mechanism, and the material-stirring frame 21 is provided with a material-stirring mechanism 2; the material stirring rack 21 comprises a pair of parallel-arranged turnover mounting plates 102, the turnover feeding mechanism comprises a rotating shaft 110 horizontally mounted between the turnover mounting plates 102, a plurality of turnover plates 113 are coaxially mounted on the rotating shaft 110, a plurality of turnover areas 114 are formed on the periphery of each turnover plate 113 in an equidistant array mode, each turnover area 114 comprises two top surfaces 1141 which are perpendicular to each other, a plurality of conveying belt mechanisms 12 are horizontally mounted at the top of the turnover mounting plates 102, the conveying belt mechanisms 12 and the turnover plates 113 are arranged between the turnover mounting plates 102 at intervals, the conveying belt mechanisms 12 can be spliced and communicated with a front horizontal conveying device in a parallel and level mode, the horizontal conveying device conveys a certain amount of stacked books to the turnover areas 114 through the conveying belt mechanisms 12 until the tail ends of the books are jacked by the vertical top surfaces 1141, at the moment, the rotating shaft 110 is driven to rotate by a certain angle in a counterclockwise direction, the horizontal top surfaces 1141 of the turnover areas 114 jack up the books, after the book is turned over for a certain angle, the vertical top surface 1141 supports the book, so that the placing angle of the book is changed;

the material stirring mechanism 2 receives the book after the turnover area 114 in the turnover feeding mechanism 1 is turned over, the material stirring mechanism 2 comprises a plurality of guide rods 210 arranged between material stirring frames 21, two ends of each guide rod 210 are slidably arranged on the material stirring frames 21, a sliding seat 211 is horizontally and slidably arranged on each guide rod 210, a material stirring head mechanism 22 extends out of each sliding seat 211 towards the front end, two ends of each guide rod 210 are provided with telescopic power mechanisms 24, each telescopic power mechanism 24 drives each guide rod 210 to move in the Y direction of the material stirring frame 21, the bottom of each material stirring frame 21 is provided with a rocker power mechanism 23 which drives each sliding seat 211 to move in the X direction of the material stirring frame 21, the X direction of the material stirring frame 21 is the same as the installation direction of each guide rod 210, each telescopic power mechanism 24 and each rocker power mechanism 23 respectively drive each sliding seat 211 to move in the Y direction and the X direction of the material stirring frame 21, and when each sliding seat 211 moves in the X direction of the material stirring frame 21, each material stirring head mechanism 22 stirs the book in the material stirring area 224 to the next process along the X direction of the material stirring frame 21, when returning, the material stirring head mechanism 22 can not collide with books in the material stirring head mechanism 22, the circulation is reciprocating, manual carrying is not needed, the books can be carried, the cost of manual carrying is reduced, and the conveying efficiency is improved.

More specifically: the shaping has bearing frame 111 on the upset mounting panel 102, the rotation axis 110 both ends are passed through bearing frame 111 rotatory installation between upset mounting panel 102, improve the rotatory stability of rotation axis 110, rotation axis 110 one end extends to the upset mounting panel 102 outside, and the nested drive gear group 112 that has, drive gear group 112 can cooperate with motor drive, drive gear group 112's transmission precision is higher, can guarantee that the angle precision of 113 rotations at every turn of returning face plates is high, prevent that books from dropping when the upset.

Further: the distance between two adjacent conveying belt mechanisms 12 on the turnover mounting plate 102 is greater than the thickness of the turnover plate 113, the distance between two adjacent turnover plates 113 is greater than the width of the conveying belt mechanisms 12, the conveying surface of the conveying belt mechanism 12 is flush with one top surface 1141 of the turnover area 114, when the turnover plate 113 is turned over, the horizontally flush top surface 1141 penetrates through the gap between two adjacent conveying belt mechanisms 12 to jack up and turn over books on the surface by a certain angle, the conveying belt mechanisms 12 are tightly matched with the turnover plate 113, a large amount of mounting space of the turnover mounting plate 102 is saved, and the matching mounting of other mechanical mechanisms is facilitated;

further: the conveying belt mechanism 12 comprises a driving shaft 121 arranged between the two turnover mounting plates 102, a driving wheel 122 arranged in the turnover area 114, and a conveying belt 123 nested at the periphery of the driving shaft 121 and the driving wheel 122, wherein the surface of the conveying belt 123 is flush with one top surface 1141 of the turnover area 114, books are conveyed on the surface of the conveying belt 123, the tail end of the conveying belt 123 extends to the vertical top surface 1141 of the turnover area 114, the conveying belt 123 and the turnover plate 113 are arranged between the two turnover mounting plates 102 at intervals, and the surface of each conveying belt 123 is flush, so that the conveying capacity is improved; the transmission gear set 112 is arranged on the peripheries of the rotating shaft 110 and the driving shaft 121, the transmission gear set 112 is connected with the driving shaft 121 through a coupler, a reduction gearbox mechanism 125 is installed on the side wall of the turnover mounting plate 102, the reduction gearbox mechanism 125 is in transmission fit with the transmission gear set 112 on the driving shaft 121 through a gear mechanism 124, the conveying speed of the conveying belt mechanism 12 can be controlled by matching with the reduction gearbox mechanism 125, the required speeds of different books are different, the turnover speed is also different, and the conveying speed of the conveying belt mechanism 12 can be changed according to the turnover speed of the turnover plate 113.

More specifically: the number of the turnover plate 113 and the number of the conveying belt mechanisms 12 are the same, and the number of the turnover plate 113 and the number of the conveying belt mechanisms 12 are at least five, so that the weight supported by the bearing capacity of the turnover plate 113 is greatly improved, and the conveying capacity of the conveying belt mechanisms 12 is further improved.

Further: the material stirring head mechanism 22 comprises a pair of fixed material stirring heads 221 which extend out of the front end of the sliding base 211 and are arranged in parallel, and also comprises an adjusting rod 220 which horizontally extends out of one side of the sliding base 211 and is parallel to the guide rod 210, a sliding material stirring component 225 is arranged on the adjusting rod 220 in a sliding manner, the sliding material stirring component 225 comprises a sliding material stirring head 227 which extends out of the front end of the material stirring rack 21, and the sliding material stirring component 225 is provided with an adjusting mechanism 226 which is used for adjusting the distance between the sliding material stirring head and the fixed material stirring heads 221; adjustment mechanism 226 changes the mounted position of slip group material subassembly 225 on adjusting pole 220, change and the fixed interval of dialling material district 224 of dialling between the stub bar 221, need not to change and dial the stub bar, can adapt to the books of more sizes, and convenient operation has improved conveying efficiency greatly, and herein simultaneously, two fixed stub bars 221 of dialling can play firm effect to the books of a take the altitude, and the phenomenon that the slope falls down can not appear because of highly mismatching with fixed stub bar 221 of dialling during the group material books.

Further: a pair of fixed material shifting heads 221 at the front end of the sliding seat 211 are respectively vertically installed at the top and the bottom of the sliding seat 211, a sliding material shifting assembly 225 is horizontally parallel to the fixed material shifting heads 221 at the bottom of the sliding seat 211 and is installed on the guide rod 210, the fixed material shifting heads 221 arranged horizontally in the same direction as the sliding material shifting assembly 225 form a material shifting area 224, the material shifting area 224 can ensure that the two ends of a book are uniformly stressed, the phenomenon of one high and one low can not occur, and the book cannot fall down due to overlarge inclination during material shifting; the telescopic power mechanism 24 comprises pulley blocks 242 arranged at two ends of the guide rod 210, a circular long groove 243 matched with the pulley block 242 to slide is formed in the material stirring rack 21, the pulley block 242 at the tail end of the guide rod 210 is slidably arranged in the circular long groove 243, a driving block 241 is connected to the tail end of one guide rod 210, the driving block 241 is connected with a second rocker 244 reciprocating in the Y direction of the material stirring rack 21, when the driving block 241 moves, the pulley block 242 is driven to slide in the circular long groove 243, and the guide rod 210 slides along with the driving block, so that the position of the sliding seat 211 in the Y direction of the material stirring rack 21 is changed.

More specifically: fixed stub bar 221 of dialling is installed at slide 211 top and bottom through regulating plate 222, regulating plate 222 surface forming has a plurality of mounting holes 223, will fix through mounting hole 223 and dial stub bar 221 fixed mounting in dialling material frame 21 front end, still can adjust the fixed mounted position who dials stub bar 221 through mounting hole 223, it is the same with the length that stub bar 227 stretches out to dial in the slip, slip is dialled material subassembly 225 and is still including dialling material connecting plate 228, dial material connecting plate 228 one end slidable mounting on adjusting pole 220, the other end is connected with slip stub bar 227 through mounting hole 223.

Further: the rocker power mechanism 23 comprises a limiting rod 232 formed at the bottom of the sliding seat 211, the limiting rod 232 is arranged in parallel with the Y direction of the material shifting rack 21, a driving rod 233 is slidably mounted on the limiting rod 232, the driving rod 233 obliquely extends towards the bottom, a rocker 234 horizontally swinging in the X direction of the material shifting rack 21 in a reciprocating manner is arranged below the sliding seat 211, the top of the rocker 234 is provided with the limiting rod 232 same as the bottom of the sliding seat 211, and two ends of the driving rod 233 are respectively connected with the sliding seat 211 and the rocker 234 through the driving rod 233; when the rocker 234 swings, the driving rod 233 drives the sliding seat 211 to slide along the guide rod 210 in the X direction of the material shifting frame 21, when the sliding seat 211 slides in the Y direction of the material shifting frame 21, the driving rod 233 slides in the limiting rod 232, and the limiting block 231 is arranged at one end of the limiting rod 232, so that the driving rod 233 can be prevented from falling off when sliding, and the phenomenon that the driving rod 233 is fractured due to different directions due to the fact that the telescopic power mechanism 24 and the rocker power mechanism 23 collide when moving is prevented.

Further: the material stirring machine is characterized in that a guide plate 25 which is vertically placed is arranged at the front end of the material stirring rack 21, racks 251 are formed at two ends of the guide plate 25 along the rear end of the material stirring rack 21 in an extending mode, gears 252 are respectively arranged at two ends of the material stirring rack 21, the gears 252 are meshed with the tops of the racks 251 and are used for changing the stretching length of the guide plate 25 through the meshing transmission of the gears 252 and the racks 251, the racks 251 are long cylinders, sleeves 254 are arranged at two ends of the material stirring rack 21, the length of each sleeve 254 is at least 2/5 of the length of the corresponding rack 251, meshing grooves 255 where the gears 252 are matched with the gears 252 are formed in the tops of the sleeves 254, the gears 252 penetrate through the meshing grooves 255 to be matched with the racks 251 in a transmission mode, the racks 251 and the guide plate 25 are integrally formed, the racks 251 are slidably mounted on the rack through the sleeves 254, a long shaft 253 is further arranged on the rack, two ends of the long shaft 253 are connected with the gears 252, one end of the long shaft 253 extends outwards, and is provided with a knob handle 256, the long shaft 253 is driven to rotate by turning the handle 256, and the gear 252 rotates along with the rotation and is meshed with the rack 251 to change the telescopic length of the guide plate 25;

further: the guide plate 25 extends forwards to form a plurality of supporting cushion blocks 250 arranged at intervals, the supporting cushion blocks 250 are vertically arranged at the front end of the guide plate 25, a baffle 257 is further arranged below the guide plate 25, vertical plates 258 arranged at intervals are slidably arranged on the baffle 257, the vertical plates 258 are vertically aligned with the supporting cushion blocks 250 above, gaps 269 between two adjacent supporting cushion blocks 250 are the same as gaps 269 between the vertical plates 258, the gaps 269 are vertically aligned, and the book is placed on the baffle 257 after the turnover plate 113 is turned over.

Further: the width of the gap 269 between the supporting cushion blocks 250 and the supporting cushion blocks 250 is greater than the width of the turnover plate 113, the supporting cushion blocks 250 and the baffle 257 are arranged between the fixed material stirring head 221 and the sliding material stirring assembly 225, books on the turnover plate 113 are conveyed to the baffle 257 through the turnover feeding mechanism 1, the supporting cushion blocks 250 and the vertical plates 258 support the side surfaces of the books respectively, and the books are prevented from falling off due to too large inclination angle.

In conclusion, the present invention has the above-mentioned excellent characteristics, so that it can be used to enhance the performance of the prior art and has practicability, and becomes a product with practical value.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description of the present invention, which should be interpreted as a limitation.

Claims (10)

1. Perpendicular conversion equipment of books, including the perpendicular setting of upset frame and upset frame dial the material frame, its characterized in that: a turnover feeding mechanism is arranged on the turnover machine frame, and a material stirring mechanism is arranged on the material stirring frame;

the material stirring rack comprises a pair of turnover mounting plates which are arranged in parallel, the turnover feeding mechanism comprises a rotating shaft which is horizontally mounted between the turnover mounting plates, a plurality of turnover plates are coaxially mounted on the rotating shaft, a plurality of turnover areas are formed on the periphery of each turnover plate in an equidistant array mode, each turnover area comprises two top surfaces which are perpendicular to each other, a plurality of conveying belt mechanisms are horizontally mounted at the top of each turnover mounting plate, and the conveying belt mechanisms and the turnover plates are arranged between the turnover mounting plates at intervals;

the material stirring mechanism receives the book after the overturning area in the overturning and feeding mechanism overturns;

the material stirring mechanism comprises a plurality of guide rods arranged between material stirring frames, two ends of each guide rod are slidably arranged on the material stirring frames, sliding seats are horizontally slidably arranged on the guide rods, the material stirring head mechanisms extend out of the sliding seats towards the front ends, telescopic power mechanisms are arranged at two ends of each guide rod and drive the guide rods to move in the Y direction of the material stirring frames, and rocker power mechanisms are arranged at the bottoms of the material stirring frames and drive the sliding seats to move in the X direction of the material stirring frames.

2. The vertical book converting apparatus according to claim 1, wherein: the interval between two adjacent conveyer belt mechanisms on the upset mounting panel is greater than the thickness of upset board, and the interval between two adjacent upset boards is greater than the width of conveyer belt mechanism, and the conveying surface of conveyer belt mechanism is parallel and level with one of them top surface in upset district.

3. The vertical book converting apparatus according to claim 1, wherein: the conveying belt mechanism comprises a driving shaft arranged between the two overturning mounting plates, a driving wheel arranged in the overturning area and a conveying belt nested at the periphery of the driving shaft and the driving wheel, and the surface of the conveying belt is flush with one top surface of the overturning area.

4. The vertical book conversion apparatus according to claim 1 or 3, wherein: and transmission gear sets are arranged on the peripheries of the rotating shaft and the driving shaft and are connected with the driving shaft through couplers.

5. The vertical book converting apparatus according to claim 1, wherein: dial stub bar mechanism and still include the regulation pole parallel with the guide arm that stretches out to slide one side level including the fixed stub bar of dialling of a pair of parallel arrangement that stretches out to the slide front end, slidable mounting has the slip to dial the material subassembly on the regulation pole, and the slip is dialled the material subassembly and is included dialling the stub bar to the slip that the frame front end of dialling stretches out, and the slip is dialled the material subassembly and is provided with the adjustment mechanism who adjusts and fix the interval between the stub bar.

6. The vertical book converting apparatus according to claim 1, wherein: the telescopic power mechanism comprises pulley blocks arranged at two ends of the guide rod, a circular long groove matched with the pulley blocks in a sliding mode is formed in the material poking rack, the pulley blocks at the tail ends of the guide rod are installed in the circular long groove in a sliding mode, and a driving block is connected to the tail end of one guide rod.

7. The vertical book converting apparatus according to claim 1, wherein: the rocker power mechanism comprises a limiting rod formed at the bottom of the sliding seat, the limiting rod is arranged in parallel with the Y direction of the material stirring rack, a driving rod is slidably mounted on the limiting rod, the driving rod extends obliquely to the bottom, a rocker which horizontally reciprocates in the X direction of the material stirring rack is arranged below the sliding seat, the top of the rocker is provided with the limiting rod which is the same as the bottom of the sliding seat, and two ends of the driving rod are respectively connected with the sliding seat and the rocker through the driving rod.

8. The vertical book converting apparatus according to claim 1, wherein: the material stirring machine is characterized in that a vertically placed guide plate is arranged at the front end of the material stirring machine frame, racks are formed at two ends of the guide plate in an extending mode along the material stirring machine frame to the rear end, gears are arranged at two ends of the material stirring machine frame respectively, the gears are meshed with each other and arranged at the tops of the racks, the racks are long cylinders, sleeves are installed at two ends of the material stirring machine frame, and gears and gear-matched meshing grooves are formed in the tops of the sleeves.

9. The vertical book converting apparatus according to claim 8, wherein: the guide plate stretches out forward and has a plurality of supporting cushion blocks that the interval set up, and supporting cushion block is vertical to be set up at the guide plate front end, and the guide plate below still is provided with the baffle, and slidable mounting has the riser that the interval set up on the baffle, and the riser is vertical with the supporting cushion block of top and aligns, and the clearance between two adjacent supporting cushion blocks is the same with the clearance between the riser.

10. A vertical book conversion device according to any one of claims 1 to 9, wherein: the width of the gap between the supporting cushion blocks is larger than that of the turnover plate, the supporting cushion blocks and the baffle plate are arranged between the fixed stirring head and the sliding stirring assembly, books on the turnover plate are conveyed to the baffle plate through the turnover feeding mechanism, and the supporting cushion blocks and the vertical plate support the side faces of the books respectively.

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