CN215158932U - Neat device is clapped in thin strip location - Google Patents

Abstract

The utility model relates to a neat device is clapped in book strip location, include: the automatic book strip conveying device comprises a rack, a power mechanism arranged on the rack, a gauge blocking positioning mechanism and a side leveling mechanism, wherein the gauge blocking positioning mechanism and the side leveling mechanism are respectively connected with the power mechanism; the power mechanism continues to provide restoring power to drive the stop gauge and the positioning plate to return to the original positions. The utility model discloses a neat device is clapped in book strip location has guaranteed that the position is unanimous around the book strip, controls and aligns, provides the assurance for the cutting precision that improves the book.

Description

Neat device is clapped in thin strip location

Technical Field

The utility model belongs to the machinery field of book, book manufacturing, especially relate to a neat device is clapped in book strip location.

Background

At present, the existing notebook (notebook) production line in China basically comprises the steps of printing, splitting, collecting, conveying a cover and a back cover, aligning paper, gluing, wrapping, conveying and transversely and longitudinally cutting a notebook from a roll paper, wherein the notebook can be forwards punched in the process of conveying the notebook to a transverse cutting part, the left and right sides of the notebook are not neat, and a certain deviation exists from a set ideal position, so that when the notebook is transversely and longitudinally cut, the positions of lines or patterns in the notebook are not consistent, a certain deviation exists, the sizes of the notebook are also slightly deviated, and the size of the notebook is not consistent, and the ideal precision cannot be achieved.

Meanwhile, according to the prior art, when the thin strips are conveyed at a high speed, the thin strips are easy to generate the defect of forward impact in the conveying process, and the thin strips are easy to be randomly extruded to generate blockage, so that the production is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at improving this precision of book, solve the ideal position that book strip must carry the settlement and cut again, consequently just improved to current defect, researched and developed a neat device is clapped in book strip location to guarantee to carry violently indulge before cutting, advance book strip and fix a position, then rethread intermittent type mechanism carries book strip earlier (can guarantee transport distance) to the crosscut portion and carries out the crosscut.

In order to achieve the above object, the utility model provides a neat device is clapped in book strip location, include:

the device comprises a rack, a power mechanism, a stop gauge positioning mechanism and a side leveling mechanism, wherein the stop gauge positioning mechanism and the side leveling mechanism are arranged on the rack and driven by the power mechanism;

the gauge stopping positioning mechanism comprises a gauge stopping mounting rod rotatably arranged at the upper part of the rack, a third oscillating rod with one end fixed on the gauge stopping mounting rod, and a first joint pull rod with one end rotatably connected with the third oscillating rod and the other end connected with the power mechanism, the gauge stopping mounting rod is also provided with a gauge, and the gauge is driven by the third oscillating rod to oscillate back and forth;

the side leveling mechanism comprises a sliding positioning mechanism arranged at the upper part of the rack and a second joint pull rod, one end of the second joint pull rod is connected with the sliding positioning mechanism, and the other end of the second joint pull rod is connected with the power mechanism;

the sliding positioning mechanism comprises a rotating wheel which is rotationally fixed on the upper part of the rack, a linear shaft which is arranged on the upper part of the rack in parallel, a first movable assembly and a second movable assembly which are arranged on the linear shaft in a sliding manner, a first positioning plate which is fixed on the first movable assembly, a second positioning plate which is fixed on the second movable assembly, a third joint pull rod of which two ends are respectively connected with the rotating wheel and the first movable assembly, and a fourth joint pull rod of which two ends are respectively connected with the rotating wheel and the second movable assembly, wherein one end of the second joint pull rod is connected with the rotating wheel;

and the first movable assembly and the second movable assembly respectively reciprocate along the linear shaft through the third joint pull rod and the fourth joint pull rod under the action of the second joint pull rod.

Preferably, the stop gauge positioning mechanism further comprises a first swing arm fixing shaft rotatably arranged at the lower part of the rack, a first swing rod arranged between the power mechanism and the first swing arm fixing shaft, and a second swing rod fixed on the first swing arm fixing shaft.

Preferably, the power mechanism is a cam mechanism, the cam mechanism comprises a cam transmission shaft rotatably arranged on the rack, a gauge blocking cam and a side parallel cam, the gauge blocking cam and the side parallel cam are arranged on the cam transmission shaft, the first swing rod is arranged between the gauge blocking cam and a first swing arm fixing shaft, one end of the right-angle roller swing rod is connected with the swing arm connecting rod, and the other end of the right-angle roller swing rod is in contact with the side parallel cam.

Preferably, the gauge blocking cam is fixed in the middle of the cam transmission shaft, the second swing rod is fixed at one end of the first swing arm fixing shaft, and the gauge blocking mounting rod is arranged on the outer side of the rack.

Preferably, both ends of the gauge stopping mounting rod are cylindrical, the middle section of the gauge stopping mounting rod is prismatic, and the gauge is fixed to the middle section of the gauge stopping mounting rod.

Preferably, the side parallel and level mechanism further comprises a right-angle roller swing rod, a second swing arm fixing shaft, a first swing arm and a second swing arm, wherein one end of the right-angle roller swing rod is arranged on the first swing arm fixing shaft, the second swing arm fixing shaft is rotatably arranged on the rack, the first swing arm and the second swing arm are fixed on the second swing arm fixing shaft, two ends of the first swing arm and the second swing arm are respectively connected with a swing arm connecting rod of the right-angle roller swing rod and the first swing arm, and the other end of the right-angle roller swing rod is connected with the power mechanism.

Preferably, the first swing arm and the second swing arm are fixed on the second swing arm fixing shaft in an angle mode through integral forming, or the first swing arm and the second swing arm are independently fixed on the second swing arm fixing shaft in an angle mode.

Preferably, the linear shafts include a first linear shaft disposed at an upper side and a second linear shaft disposed at a lower side.

Preferably, the first movable assembly comprises a first sliding block arranged on the first linear shaft and the second linear shaft in a sliding manner and a second sliding block arranged on the second linear shaft in a sliding manner, a first connecting rod is arranged between the first sliding block and the second sliding block, and the first positioning plate is fixed on the second sliding block;

the second movable assembly comprises a third sliding block and a fourth sliding block, the third sliding block is arranged on the first linear shaft and the second linear shaft in a sliding mode, the fourth sliding block is arranged on the second linear shaft in a sliding mode, a second connecting rod is arranged between the third sliding block and the fourth sliding block, and the second positioning plate is fixed on the fourth sliding block.

Preferably, the first sliding block is connected with one end of the third joint pull rod, the third sliding block is connected with one end of the fourth joint pull rod, and the first positioning plate and the second positioning plate are driven by the third joint pull rod and the fourth joint pull rod to simultaneously reciprocate on the second linear shaft in a left-right mode.

Preferably, the second joint pull rod, the third joint pull rod and the fourth joint pull rod are arranged on the rotating wheel at intervals.

Preferably, the power mechanism comprises a cylinder, a hydraulic device, an eccentric wheel, a motor or a swing rod.

Based on the technical scheme, the utility model has the advantages that:

the utility model discloses a neat device is clapped in book strip location has guaranteed that book strip front and back position is unanimous, controls and aligns, for improving the cutting precision of book and provide the assurance, can improve book cutting precision by a wide margin, and book strip can not take place the phenomenon of dashing forward after the device simultaneously, and book strip is carried in order, and fast book strip can not take place indiscriminate crowded and arouse the stifled paper phenomenon again, has improved production efficiency.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without undue limitation to the invention. In the drawings:

FIG. 1 is a schematic view of a thin strip positioning and aligning device;

FIG. 2 is a schematic structural view of a stop gauge positioning mechanism;

FIG. 3 is a schematic view of a lay gauge installation;

fig. 4 is a schematic structural view of the side flush mechanism.

Detailed Description

The technical solution of the present invention is further described in detail by the accompanying drawings and examples.

The utility model provides a neat device is clapped in book strip location through a series of mechanical action, when a position was carried to the book strip, the fender rule began to move and blocks book strip, then movable assembly also followed the action, claps neat about the book strip, has improved this cutting accuracy of book by a wide margin, and the phenomenon that can not take place forward again through the device back book strip simultaneously has improved production efficiency. As shown in fig. 1 to 4, a preferred embodiment of the present invention is shown therein.

As shown in fig. 1, the utility model discloses a neat device is clapped in thin strip location includes: the device comprises a rack, a power mechanism, a stop gauge positioning mechanism 2 and a side leveling mechanism 3, wherein the stop gauge positioning mechanism 2 and the side leveling mechanism 3 are arranged on the rack and driven by the power mechanism.

As shown in fig. 2, the gauge stop positioning mechanism 2 includes a gauge stop mounting rod 207 rotatably disposed on the upper portion of the frame, a third swing rod 206 having one end fixed to the gauge stop mounting rod 207, and a first joint pull rod 205 having one end rotatably connected to the third swing rod 206 and the other end connected to the power mechanism, the gauge stop mounting rod 207 is further provided with a gauge stop 208, and the gauge stop 208 is driven by the third swing rod 206 to swing back and forth.

As shown in fig. 4, the side leveling mechanism 3 includes a sliding positioning mechanism disposed at the upper portion of the frame, and a second joint pull rod 307 having one end connected to the sliding positioning mechanism and the other end connected to the power mechanism.

The sliding positioning mechanism comprises a rotating wheel 308 which is rotationally fixed on the upper part of the rack, a linear shaft which is arranged on the upper part of the rack in parallel, a first movable assembly 311 and a second movable assembly 312 which are arranged on the linear shaft in a sliding manner, a first positioning plate 313 which is fixed on the first movable assembly 311, a second positioning plate 314 which is fixed on the second movable assembly 312, a third joint pull rod 316 of which the two ends are respectively connected with the rotating wheel 308 and the first movable assembly 311, and a fourth joint pull rod 315 of which the two ends are respectively connected with the rotating wheel 308 and the second movable assembly 312, wherein one end of the second joint pull rod 307 is connected with the rotating wheel 308;

the first movable assembly 311 and the second movable assembly 312 reciprocate relatively along the linear axis through the third joint pull rod 316 and the fourth joint pull rod 315 respectively under the action of the second joint pull rod 307.

Preferably, the power mechanism comprises a cam, a cylinder, hydraulic pressure, an eccentric wheel, a motor or a swing rod. It should be noted that, the power mechanism of the present invention includes but is not limited to the above structure, and only the mechanical structure capable of providing the reciprocating motion power to the stop gauge positioning mechanism 2 and the side leveling mechanism 3 can be used as the power mechanism.

Further, the stop gauge positioning mechanism 2 further includes a first swing arm fixing shaft 202 rotatably disposed at the lower portion of the frame, a first swing link 203 disposed between the power mechanism and the first swing arm fixing shaft 202, and a second swing link 204 fixed to the first swing arm fixing shaft 202.

More preferably, the power mechanism is a cam mechanism. Cam mechanism is including rotating the setting and being in cam drive shaft 1 in the frame, setting are in keep off rule cam 201 and side parallel and level cam 301 on the cam drive shaft 1, first pendulum rod 203 sets up and keeps off between rule cam 201 and first swing arm fixed axle 202, right angle gyro wheel pendulum rod 302 one end with swing arm connecting rod 303 is connected, the other end with side parallel and level cam 301 contacts.

The gauge blocking cam 201 is fixed in the middle of the cam transmission shaft 1, the second swing rod 204 is fixed at one end of the first swing arm fixing shaft 202, and the gauge blocking mounting rod 207 is arranged on the outer side of the rack. As shown in fig. 3, two ends of the gauge-stopping mounting rod 207 are cylindrical, the middle section of the gauge-stopping mounting rod 207 is prismatic, the gauge 208 is fixed on the middle section of the gauge-stopping mounting rod 207, and the gauge 208 is more stable in shape when being mounted on the prismatic body, and is suitable for photographing paper.

The cam transmission shaft 1 is connected with a power mechanism, and the power mechanism drives the cam transmission shaft to rotate. In the process of conveying the thin paper, the cam transmission shaft 1 rotates, the gauge blocking cam 201 fixed on the cam transmission shaft 1 rotates simultaneously, and the gauge blocking cam 201 is a smooth curve and has a high point and a low point, so that the gauge blocking cam 201 drives the first swing rod 203 to swing along with the rotation of the gauge blocking cam 201.

The first swing arm fixing shaft 202 is fixedly mounted on the first swing arm 203, so that the first swing arm fixing shaft 202 is driven by the first swing arm 203 to rotate back and forth; the first swing arm fixing shaft 202 drives the second swing rod 204 to swing back and forth, the second swing rod 204 pulls the first joint pull rod 205 to move up and down, the first joint pull rod 205 pulls the third swing rod 206, and the third swing rod 206 is fixed on the gauge stopping mounting rod 207, so that the gauge stopping mounting rod 207 can rotate within a certain range under the driving of the third swing rod 206, and the gauge stopping 208 can swing.

Further, the side leveling mechanism 3 further includes a right-angle roller swing rod 302 with one end disposed on the first swing arm fixing shaft 202, a second swing arm fixing shaft 306 rotatably disposed on the frame, a first swing arm 304 and a second swing arm 305 fixed on the second swing arm fixing shaft 306, and a swing arm connecting rod 303 with two ends respectively connected to the right-angle roller swing rod 302 and the first swing arm 304, and the other end of the right-angle roller swing rod 302 is connected to the power mechanism.

Preferably, one end of the right-angle roller swing rod 302 is connected with the swing arm connecting rod 303, and the other end of the right-angle roller swing rod is in contact with the side flush cam 301. The first swing arm 304 and the second swing arm 305 are integrally formed and fixed on the second swing arm fixing shaft 306 at an angle, or the first swing arm 304 and the second swing arm 305 are independently fixed on the second swing arm fixing shaft 306 at an angle.

As shown in fig. 1, the sliding positioning mechanism includes a rotating wheel 308 rotatably fixed on the upper portion of the frame, a linear shaft arranged in parallel on the upper portion of the frame, a first movable assembly 311 and a second movable assembly 312 slidably arranged on the linear shaft, a first positioning plate 313 fixed on the first movable assembly 311, a second positioning plate 314 fixed on the second movable assembly 312, a third joint pull rod 316 with two ends respectively connected to the rotating wheel 308 and the first movable assembly 311, and a fourth joint pull rod 315 with two ends respectively connected to the rotating wheel 308 and the second movable assembly 312, wherein one end of the second joint pull rod 307 is connected to the rotating wheel 308. The first movable assembly 311 and the second movable assembly 312 reciprocate relatively along the linear axis through the third joint pull rod 316 and the fourth joint pull rod 315 respectively under the action of the second joint pull rod 307.

Specifically, the linear shafts include a first linear shaft 309 disposed on an upper side and a second linear shaft 310 disposed on a lower side. The first movable assembly 311 comprises a first sliding block slidably disposed on the first linear shaft 309 and the second linear shaft 310 and a second sliding block slidably disposed on the second linear shaft 310, a first connecting rod is disposed between the first sliding block and the second sliding block, and the first positioning plate 313 is fixed on the second sliding block; the second movable assembly 312 includes a third sliding block slidably disposed on the first linear shaft 309 and the second linear shaft 310 and a fourth sliding block slidably disposed on the second linear shaft 310, a second connecting rod is disposed between the third sliding block and the fourth sliding block, and the second positioning plate 314 is fixed on the fourth sliding block.

Further, the first sliding block is connected to one end of the third joint pull rod 316, the third sliding block is connected to one end of the fourth joint pull rod 315, and the first positioning plate 313 and the second positioning plate 314 are driven by the third joint pull rod 316 and the fourth joint pull rod 315 to reciprocate on the second linear shaft 310 in a left-right manner.

In the book strip transportation process, cam drive shaft 1 is rotatory, fixes and is also rotating at the same time at cam drive shaft 1 upside parallel and level cam 301, because 1 appearance of cam drive shaft is a smooth curve, has the high point low point, so along with cam drive shaft 1's rotation, cam drive shaft 1 drives the swing of right angle gyro wheel pendulum rod 302. The right-angle roller swing link 302 pulls the first swing arm 304 to swing through the swing arm link 303, and the first swing arm 304 is fixed on the second swing arm fixing shaft 306, so the first swing arm 304 drives the second swing arm fixing shaft 306 to rotate, the second swing arm fixing shaft 306 drives the second swing arm 305 mounted on the second swing arm fixing shaft 306 to swing, the second swing arm 305 drives the second joint pull rod 307 to move up and down through the swing of the second swing arm 305, so that the rotating wheel 308 rotates, the rotating wheel 308 drives the third joint pull rod 316 and the fourth joint pull rod 315 to move the first movable assembly 311 and the second movable assembly 312 one left and one right, and the positioning plates 1 and 2 respectively fixed on the first movable assembly 311 and the second movable assembly 312 also move one left and one right at the same time, thereby the thin strips are positioned between the first positioning plate 313 and the second positioning plate 314.

Preferably, the second joint rod 307, the third joint rod 316 and the fourth joint rod 315 are arranged on the rotating wheel 308 at intervals. The relative position relationship of the second joint pull rod 307, the third joint pull rod 316 and the fourth joint pull rod 315 can be ensured by finely adjusting the lengths of the three joint pull rods through threads on the joint pull rods, and the other large position relationship is the position of the pull rod fixed through a cam curve, the length of the pull rod and a rotating wheel. The stop gauge driven by the power mechanism can swing right to the position vertical to the conveying table to firmly stop the thin strips, and then the power mechanism can drive the positioning plate to move left and right to align the thin strips left and right; the power mechanism continues to provide restoring power to drive the stop gauge and the positioning plate to return to the original positions.

When the thin strips are conveyed to a designated position, the power mechanism provides power to drive the stop gauge to just swing to be perpendicular to the conveying table (the angle of the power mechanism of the stop gauge needs to be adjusted according to the product) so as to firmly stop the thin strips, and then the power mechanism provides power to drive the positioning plate to move left and right (the angle of the power mechanism needs to be adjusted according to the product) so as to enable the thin strips to be aligned left and right; the power mechanism continues to provide restoring power to drive the stop gauge and the positioning plate to return to the original positions, and the thin strips continue to be conveyed to the transverse cutting part through the intermittent mechanism (the mechanism can ensure that the step distances are consistent and cannot be rushed forwards).

The utility model discloses a neat device is clapped in book strip location has guaranteed that book strip front and back position is unanimous, controls and aligns, for improving the cutting precision of book and provide the assurance, can improve book cutting precision by a wide margin, and book strip can not take place the phenomenon of dashing forward after the device simultaneously, and book strip is carried in order, and fast book strip can not take place indiscriminate crowded and arouse the stifled paper phenomenon again, has improved production efficiency.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting the same; although the present invention has been described in detail with reference to preferred embodiments, it should be understood by those skilled in the art that: the invention can be modified or equivalent substituted for some technical features; without departing from the spirit of the present invention, it should be understood that the scope of the claims is intended to cover all such modifications and variations.

Claims (10)

1. The utility model provides a neat device is clapped in thin strip location which characterized in that: the method comprises the following steps: the device comprises a rack, a power mechanism, a stop gauge positioning mechanism (2) and a side leveling mechanism (3), wherein the stop gauge positioning mechanism (2) and the side leveling mechanism are arranged on the rack and driven by the power mechanism;

the gauge stopping positioning mechanism (2) comprises a gauge stopping mounting rod (207) rotatably arranged at the upper part of the rack, a third swing rod (206) with one end fixed on the gauge stopping mounting rod (207), and a first joint pull rod (205) with one end rotatably connected with the third swing rod (206) and the other end connected with the power mechanism, a gauge (208) is further arranged on the gauge stopping mounting rod (207), and the gauge (208) is driven by the third swing rod (206) to swing in a reciprocating manner;

the side leveling mechanism (3) comprises a sliding positioning mechanism arranged at the upper part of the rack and a second joint pull rod (307) with one end connected with the sliding positioning mechanism and the other end connected with the power mechanism;

the sliding positioning mechanism comprises a rotating wheel (308) rotationally fixed on the upper portion of the rack, a linear shaft arranged on the upper portion of the rack in parallel, a first movable assembly (311) and a second movable assembly (312) which are arranged on the linear shaft in a sliding manner, a first positioning plate (313) fixed on the first movable assembly (311), a second positioning plate (314) fixed on the second movable assembly (312), a third joint pull rod (316) with two ends respectively connected with the rotating wheel (308) and the first movable assembly (311), and a fourth joint pull rod (315) with two ends respectively connected with the rotating wheel (308) and the second movable assembly (312), wherein one end of the second joint pull rod (307) is connected with the rotating wheel (308);

the first movable assembly (311) and the second movable assembly (312) respectively reciprocate along the linear axis through a third joint pull rod (316) and a fourth joint pull rod (315) under the action of a second joint pull rod (307).

2. The note positioning and snapping device according to claim 1, wherein: the stop gauge positioning mechanism (2) further comprises a first swing arm fixing shaft (202) rotatably arranged at the lower part of the rack, a first swing rod (203) arranged between the power mechanism and the first swing arm fixing shaft (202), and a second swing rod (204) fixed on the first swing arm fixing shaft (202).

3. The note positioning and snapping device according to claim 2, wherein: the power mechanism is a cam mechanism, the cam mechanism comprises a cam transmission shaft (1) which is rotatably arranged on the rack, a gauge blocking cam (201) and a side parallel and level cam (301) which are arranged on the cam transmission shaft (1), the first swing rod (203) is arranged between the gauge blocking cam (201) and a first swing arm fixing shaft (202), and the side parallel and level cam (301) is in contact with one end of a right-angle roller swing rod (302).

4. The note positioning and snapping device according to claim 3, wherein: the gauge blocking cam (201) is fixed in the middle of the cam transmission shaft (1), the second swing rod (204) is fixed at one end of the first swing arm fixing shaft (202), and the gauge blocking mounting rod (207) is arranged on the outer side of the rack.

5. The note positioning and snapping device according to claim 3, wherein: side parallel and level mechanism (3) still include that one end sets up right angle gyro wheel pendulum rod (302), rotation on first swing arm fixed axle (202) set up second swing arm fixed axle (306) in the frame, fix first swing arm (304) and second swing arm (305), both ends on second swing arm fixed axle (306) are connected respectively swing arm connecting rod (303) of right angle gyro wheel pendulum rod (302) and first swing arm (304), the right angle gyro wheel pendulum rod (302) other end with power unit meets.

6. The note positioning and snapping device according to claim 5, wherein: the first swing arm (304) and the second swing arm (305) are integrally formed and fixed on the second swing arm fixing shaft (306) in an angle mode, or the first swing arm (304) and the second swing arm (305) are independently fixed on the second swing arm fixing shaft (306) in an angle mode.

7. The note positioning and snapping device according to claim 6, wherein: the linear shafts include a first linear shaft (309) disposed at an upper side and a second linear shaft (310) disposed at a lower side.

8. The note positioning and snapping device according to claim 7, wherein: the first movable assembly (311) comprises a first sliding block and a second sliding block, the first sliding block is arranged on the first linear shaft (309) and the second linear shaft (310) in a sliding mode, the second sliding block is arranged on the second linear shaft (310) in a sliding mode, a first connecting rod is arranged between the first sliding block and the second sliding block, and the first positioning plate (313) is fixed on the second sliding block;

the second movable assembly (312) comprises a third sliding block and a fourth sliding block, the third sliding block is arranged on the first linear shaft (309) and the second linear shaft (310) in a sliding mode, the fourth sliding block is arranged on the second linear shaft (310) in a sliding mode, a second connecting rod is arranged between the third sliding block and the fourth sliding block, and the second positioning plate (314) is fixed on the fourth sliding block.

9. The note positioning and snapping device according to claim 8, wherein: the first sliding block is connected with one end of a third joint pull rod (316), the third sliding block is connected with one end of a fourth joint pull rod (315), the first positioning plate (313) and the second positioning plate (314) are driven by the third joint pull rod (316) and the fourth joint pull rod (315) to simultaneously and relatively reciprocate on the second linear shaft (310), and the second joint pull rod (307), the third joint pull rod (316) and the fourth joint pull rod (315) are arranged on the rotating wheel (308) at intervals.

10. The note positioning and snapping device according to claim 1, wherein: the power mechanism comprises a cylinder, hydraulic pressure, an eccentric wheel, a motor or a swing rod.

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