CN213109901U - Automatic bending and bundling device for flexible sheet materials - Google Patents

Abstract

The utility model discloses an automatic bending and binding device for flexible sheet materials, which comprises a frame; the spiral paper folding disc is arranged on the rack, and the rack is provided with a blocking part which is used for blocking the sheet materials in the spiral paper folding disc so as to pick the sheet materials which rotate to a preset angle; the supporting mechanism is arranged on the rack and positioned below the spiral paper folding disc so as to support the rejected sheet materials; the pressing mechanism is rotatably arranged on the rack through a first rotating shaft and can rotate around the first rotating shaft so as to be matched with the bearing mechanism to press and bend the sheet material to a set angle together; and the bundling mechanism is arranged on the rack and is used for bundling and fixing the sheet materials in the bent state. The automatic bending and bundling device for the flexible sheet materials can bundle the sheet materials after bending, and the bundled sheet materials can rebound, so that a bundling belt is tightened, and the bundling effect of the sheet materials is improved.

Description

Automatic bending and bundling device for flexible sheet materials

Technical Field

The utility model relates to a flexible sheet material automatic bending binding apparatus belongs to the clear technical field that divides of sheet material.

Background

After the flexible sheet materials such as bank notes, vouchers, checks, separator cards and the like are subjected to the dispersed inspection by inspection equipment, the flexible sheet materials are mostly output and stored in a mode of stacking and bundling every hundred sheets. Bundling of flexible sheet materials is generally performed by bundling a stack of flexible sheet materials with a bundling paper tape or adhesive tape, and adhering ends of the bundling paper tape or adhesive tape together in a hot-melt manner to complete the bundling of the flexible sheet materials.

According to the technical scheme of automatic stacking and bundling for the sorting machine in the prior art, high-speed stacking and bundling of sheet materials can be achieved, however, one part of a pressing plate can be wrapped in a packaging belt during bundling, the perimeter of the inner perimeter of the packaging belt is larger than the perimeter of the short side of the sheet materials, the bundling cannot be tight, the bundling tightness is difficult to control in the high-speed automatic bundling process, the bundling appearance is not in line with the requirements of production enterprises, and the bundling effect is poor.

Disclosure of Invention

The utility model aims to solve the technical problem that a flexible sheet material automatic bending binding apparatus is provided to improve flexible sheet material's the effect of tying up.

In order to realize the technical purpose, the utility model adopts the following technical scheme:

an automatic bending strapping apparatus for flexible sheet material, comprising:

a frame;

the spiral paper folding tray is arranged on the rack, and the rack is provided with a blocking part which is used for blocking the sheet materials in the spiral paper folding tray so as to pick the sheet materials which rotate to a preset angle from the spiral paper folding tray;

the supporting mechanism is arranged on the rack and positioned below the spiral paper folding disc so as to support the sheet materials picked from the spiral paper folding disc;

the pressing mechanism is rotatably arranged on the rack through a first rotating shaft and can rotate around the first rotating shaft so as to be matched with the bearing mechanism to press and bend the sheet material to a set angle;

and the bundling mechanism is arranged on the rack and is used for bundling and fixing the sheet materials in the bent state.

Preferably, in an embodiment provided by the present invention, the supporting mechanism includes a rotary base, a first supporting plate, a second rotating shaft, and a bottom plate;

the rotating seat is rotatably arranged on the rack through the first rotating shaft, the second rotating shaft is arranged on the rotating seat, and the second rotating shaft is perpendicular to the first rotating shaft;

the first side of the first bearing plate is rotatably arranged on the second rotating shaft through a first torsion spring, the first side of the second bearing plate is rotatably arranged on the second rotating shaft through a second torsion spring, and the first bearing plate and the second bearing plate can jointly bear the flaky materials;

the bottom plate is arranged on the rack and is positioned below the first bearing plate and the second bearing plate, and the positions, corresponding to the second side of the first bearing plate and the second side of the second bearing plate, on the bottom plate are both provided with a protruding part;

the pressing mechanism can rotate around the first rotating shaft to press the sheet materials which are jointly supported by the first bearing plate and the second bearing plate and can drive the rotating seat to rotate around the first rotating shaft to drive the first bearing plate and the second bearing plate to gradually approach the bottom plate, and the second side of the first bearing plate and the second side of the second bearing plate can both rotate around the second rotating shaft under the blocking of the protruding portion to drive the sheet materials to be bent to the set angle.

Preferably, the height of the protrusion is adjustable along a direction perpendicular to the upper surface of the base plate.

It is wherein better in the utility model provides an in another embodiment, the recessed depressed part that forms in supporting mechanism's middle part, hold-down mechanism's middle part orientation supporting mechanism extends to press the splenium, press the splenium with the depressed part corresponds, hold-down mechanism can wind first pivot is rotated, and drives press the splenium to be close to gradually the depressed part, in order to drive the sheet material buckle extremely set for the angle.

Preferably, in another embodiment of the present invention, the supporting mechanism includes a supporting plate and a cushion block, the cushion block is disposed on two sides of the supporting plate, and the pressing mechanism can rotate around the first rotating shaft to press the sheet material supported on the cushion block to the set angle.

Preferably, the automatic flexible sheet material bending and binding device further comprises a strapping tape delivering mechanism, the strapping tape delivering mechanism is arranged on the rack and located on one side of the supporting mechanism, the strapping tape delivering mechanism is used for delivering and placing a strapping tape on the supporting mechanism, and the sheet material can be stacked on the strapping tape.

Preferably, the bundling mechanism comprises a pressing head and an ironing head, and the pressing head and the ironing head are respectively arranged on two sides of the supporting mechanism;

the pressing mechanism is matched with the supporting mechanism to press and bend the sheet material to a set angle, and the pressing head and the ironing head respectively extend out and drive two ends of the strapping tape to be connected together after being folded back.

Preferably, the automatic bending and bundling device for the flexible sheet materials further comprises a pushing mechanism, the pushing mechanism is arranged below the bearing mechanism, and the pushing mechanism can move along a set direction so as to push the bundled sheet materials to a set position.

Preferably, the automatic bending and bundling device for the flexible sheet materials further comprises paper arranging strips, the paper arranging strips are arranged on the rack and opposite to the blocking parts, and a set distance is reserved between the paper arranging strips and the blocking parts, so that the sheet materials can be clamped between the paper arranging strips and the blocking parts.

Preferably, the flexible sheet material automatic bending and bundling device further comprises a controller and a counting sensor; the counting sensor is used for counting the sheet materials rejected from the spiral paper folding disc; the counting sensor, the spiral paper folding tray, the pressing mechanism, the strapping tape feeding mechanism and the strapping mechanism are all electrically connected with the controller;

the controller can control the strapping tape sending mechanism to send the strapping tape to the supporting mechanism; the controller is further capable of controlling the spiral stacker to rotate to release the sheet material, and capable of controlling the spiral stacker to stop releasing the sheet material after the sheet material reaches a predetermined amount; the controller can also control the pressing mechanism to be matched with the supporting mechanism to press and bend the sheet material to a set angle; the control system can also control the bundling mechanism to bundle and fix the sheet materials in the bent state.

The utility model provides an automatic flexible sheet material bending and binding device, in the process of picking off sheet materials from a spiral paper folding disc, the sheet materials can be sequentially stacked on a bearing mechanism, and after a preset amount of sheet materials are picked off from the spiral paper folding disc, the spiral paper folding disc stops releasing the sheet materials; then, the pressing mechanism is matched with the supporting mechanism to bend the stacked sheet materials to a set angle, and finally, the bundling mechanism is used for bundling the sheet materials in the bent state, so that the perimeter of the outer ring of the stacked sheet materials in the bundling process is shortened, after the bundling is completed, the pressing mechanism does not apply acting force on the bundled sheet materials any more, and the sheet materials can rebound correspondingly, so that the bundling belt is tightened. The device can improve the overall appearance of the bound sheet materials, thereby improving the binding effect of the sheet materials.

Drawings

Fig. 1 is a schematic view of the overall structure of the automatic bending and binding device for flexible sheet materials according to the present invention;

FIG. 2 is a schematic view of a portion of the structure of FIG. 1;

fig. 3 is a schematic structural diagram of a supporting mechanism provided in the present invention;

fig. 4 is a schematic structural view of another supporting mechanism provided by the present invention;

fig. 5 is a schematic structural diagram of another supporting mechanism provided in the present invention.

In the drawings, each reference numeral denotes:

1. a frame; 2. a spiral paper folding tray; 21. a blocking portion; 3. a support mechanism; 31. a rotating base; 32. a first support plate; 33. a second support plate; 34. a second rotating shaft; 35. a base plate; 351. a boss portion; 36. a recessed portion; 37. a support plate; 38. cushion blocks; 4. a hold-down mechanism; 41. a pressing part; 5. a strapping mechanism; 51. a pressure head; 52. a cylinder; 6. a first rotating shaft; 7. a pushing mechanism; 8. arranging paper strips; 20. a sheet material.

Detailed Description

The technical solution of the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

The first embodiment is as follows:

referring to fig. 1, an automatic bending and binding apparatus (hereinafter, referred to as an automatic bending and binding apparatus) for flexible sheet material according to an embodiment of the present invention includes: the device comprises a frame 1, a spiral paper folding disc 2, a supporting mechanism 3, a pressing mechanism 4 and a bundling mechanism 5.

The spiral paper folding disk 2 is arranged on the machine frame 1, the rotating shaft of the spiral paper folding disk 2 is vertical to the machine frame 1, and the spiral paper folding disk 2 can rotate around the rotating shaft. The frame 1 is provided with a blocking portion 21 (also called a paper ejection sheet), and the blocking portion 21 is disposed below the spiral paper stacking tray 2 and used for blocking the sheet materials 20 in the spiral paper stacking tray 2 so as to eject the sheet materials 20 rotated to a predetermined angle from the spiral paper stacking tray 2. The supporting mechanism 3 is rotatably disposed on the frame 1 through a first rotating shaft 6, and is located below the spiral paper stacking tray 2 to support the sheet material 20 picked from the spiral paper stacking tray 2, and the first rotating shaft 6 is perpendicular to the frame 1. The pressing mechanism 4 is rotatably arranged on the rack 1 through a first rotating shaft 6, and the pressing mechanism 4 can rotate around the first rotating shaft 6 so as to cooperate with the supporting mechanism 3 to press and bend the sheet material 20 to a set angle. The binding mechanism 5 is provided on the frame 1, and is configured to bind and fix the sheet material 20 in a bent state.

In this embodiment, when the sheet material feeding device is used specifically, the sheet material 20 is first fed into the spiral paper stacking tray 2 by the conveyor belt, and with the rotation of the spiral paper stacking tray 2, the sheet material 20 that has rotated to the lower half of the spiral paper stacking tray 2 is blocked by the blocking portion 21 when reaching a predetermined angle, and is ejected from the spiral paper stacking tray 2, and when a certain number (for example, 100 sheets) of sheet material 20 are ejected, the spiral paper stacking tray 2 stops releasing the sheet material, and at this time, the spiral paper stacking tray 2 still rotates; in the process that the sheet materials 20 are rejected from the spiral paper folding disk 2, the rejected sheet materials 20 are stacked on the supporting mechanism 3 in sequence; then, the pressing mechanism 4 is used for pressing and bending the sheet material 20 on the bearing mechanism 3 to a set angle, so that the perimeter of the sheet material is shortened; finally, the sheet material 20 in the bent state is bundled and fixed by a bundling mechanism 5; when the sheet material 20 is completely bundled, the pressing mechanism 4 no longer applies force to the bundled sheet material 20, and the sheet material 20 can rebound accordingly, thereby tightening the bundling strap. This improves the overall appearance of the bundled sheet materials 20, thereby improving the bundling effect of the sheet materials 20.

In the above embodiment, preferably, the automatic bending strapping apparatus further includes a strap feeding mechanism (not shown) which is provided on the frame 1 and located on one side of the supporting mechanism 3, the strap feeding mechanism being configured to feed a strap out and place the strap on the supporting mechanism 3, the strap being capable of stacking the sheet material 20 thereon. Specifically, in the process of rotating the spiral paper folding disk 2, the strapping tape is placed on the supporting mechanism 3 through the strapping tape feeding mechanism in advance, and the strapping tape feeding mechanism retracts; then, the spiral sheet stacking tray 2 starts to release the sheet materials to stack a predetermined number of the sheet materials 20 on the binding band in order; after the sheet material 20 is bent to the set angle, the two ends of the binding band can be connected together by the binding mechanism 5, thereby completing the binding process for the sheet material 20. The strap dispensing mechanism then dispenses strap again for collection and bundling of the next batch of sheet material 20. Therefore, the strapping tape sending-out mechanism can realize the function of automatically placing the strapping tape, so that the manual strapping tape placing process is replaced, the labor cost can be saved, and the production efficiency is improved.

Referring to fig. 1, in the above embodiment, preferably, the strapping mechanism 5 includes a pressing head 51 and an ironing head (not shown in the figure), and the pressing head 51 and the ironing head are respectively disposed at both sides of the supporting mechanism 3; the pressing mechanism 4 cooperates with the supporting mechanism 3 to press and bend the sheet material 20 to a predetermined angle, and the pressing head 51 and the ironing head respectively extend out and drive the two ends of the strapping tape to be folded back and then connect the two ends of the strapping tape together. Specifically, as shown in fig. 1, the pressing head 51 is located at the outer side of the supporting mechanism 3, the pressing head 51 is driven by the air cylinder 52 to be close to or far from the supporting mechanism 3, and when the air cylinder 52 drives the pressing head 51 to be close to the supporting mechanism 3, the pressing head 51 can fold one end of the strapping tape back to the inner side; correspondingly, the ironing head is located on the inner side of the supporting mechanism 3, when the pressing head 51 folds one end of the strapping tape back, the ironing head folds the other end of the strapping tape back to the outer side, and due to the fact that the end portion of the strapping tape is provided with the adhesive, under the heating effect of the ironing head, the two ends of the strapping tape can be adhered together, and the strapping process of the sheet materials is completed. Therefore, the bundling mechanism 5 can be used for quickly bundling the sheet materials in cooperation with the bundling belt delivery mechanism, and has simple structure and high production efficiency.

In the above embodiment, preferably, the automatic bending and binding apparatus further includes a pushing mechanism 7, the pushing mechanism 7 is disposed below the supporting mechanism 3, and the pushing mechanism 7 is movable in a set direction for pushing the bound sheet material 20 to a set position. Specifically, the pushing mechanism 7 may be a power component such as an air cylinder or a linear motor, and after the sheet material 20 is bundled, the pushing mechanism 7 can push the sheet material 20 to move along a set direction, so as to push the sheet material 20 to a set position for collection, and after the pushing is completed, the pushing mechanism 7 returns to an initial position to wait for the next pushing. Therefore, the process of automatically collecting the bundled sheet materials 20 can be realized by the pushing mechanism 7, and the collection efficiency of the sheet materials 20 is improved.

Referring to fig. 1, in the above embodiment, preferably, the automatic bending strapping device further includes a paper handling strip 8, the paper handling strip 8 is disposed on the frame 1 and is opposite to the blocking portion 21, and a set distance is provided between the paper handling strip 8 and the blocking portion 21 so that the sheet material 20 can be sandwiched between the paper handling strip 8 and the blocking portion 21. Specifically, the distance between the paper sorting strip 8 and the blocking portion 21 is equal to the length of the sheet material, when the sheet material 20 is blocked by the blocking portion 21 and is ejected from the spiral paper stacking tray 2, the sheet material 20 gradually falls, and in the falling process of the sheet material 20, the sheet material 20 is limited in an area formed by the paper sorting strip 8 and the blocking portion 21, so that the scattered sheet material 20 can be sorted, two ends of each sheet material 20 can be aligned, and the sheet materials 20 can be bundled conveniently. Thus, the scattered sheet materials 20 can be aligned by the paper arranging strip 8 and the blocking part 21, and the appearance of the bundled sheet materials 20 can be ensured.

In the above embodiment, preferably, the automatic bending strapping apparatus further includes a controller (not shown) and a counting sensor (not shown). The counting sensor is arranged at the periphery of the spiral paper folding disc 2 or at a position between the lower part of the spiral paper folding disc 2 and the supporting mechanism 3 and is used for counting the sheet materials removed from the spiral paper folding disc 2, or the counting sensor is combined with the counting sensor arranged at the periphery of the conveying belt at the upstream of the spiral paper folding disc 2 and is used for rechecking the number of the sheet materials removed from the spiral paper folding disc 2.

The counting sensor, the spiral paper folding disc 2, the pressing mechanism 4, the bundling mechanism 5 and the bundling belt sending mechanism are all electrically connected with the controller; the controller can control the strapping tape sending-out mechanism to send out the strapping tape to the bearing mechanism 3; the controller can control the spiral sheet stacking tray 2 to rotate to release the sheet material, and can control the spiral sheet stacking tray 2 to stop releasing the sheet material after the sheet material reaches a predetermined amount; the controller can also control the pressing mechanism 4 to press and bend the sheet material 20 to a set angle in cooperation with the supporting mechanism 3; the control system can also control the bundling mechanism 5 to bundle and fix the sheet material 20 in the bent state.

Specifically, first, the controller controls the strapping tape feeding mechanism to feed the strapping tape to the supporting mechanism 3; then, the controller controls the spiral paper folding tray 2 to rotate to release the sheet material 20, the sheet material 20 can be counted by the counting sensor in the process of gradually picking up the sheet material 20 from the spiral paper folding tray 2, when the counting sensor records a preset number of sheet materials (for example, 100 sheets), the counting sensor sends an electric signal to the controller, and the controller controls the spiral paper folding tray 2 to stop releasing the sheet materials after receiving the electric signal; then, the controller controls the pressing mechanism 4 to rotate around the first rotating shaft 6, so that the supporting mechanism 3 is matched to bend the sheet materials 20 with the preset quantity to a set angle; finally, the controller controls the pressing head 51 and the ironing head of the binding mechanism 5 to be respectively extended to fold back and stick the both ends of the binding band together, thereby binding and fixing the bent sheet material 20. Therefore, automatic bundling of the sheet materials can be realized, and the production efficiency is improved.

The utility model provides an automatic crooked binding apparatus for the output after flexible sheet material detects through check out test set. Preferably, above-mentioned automatic bending binding apparatus can adjust the crookedness of supporting mechanism 3 according to the product width, reaches the effect of adjusting and tying up the elasticity, and specific structure can see following embodiment.

Example two:

referring to fig. 2 and 3, on the basis of the first embodiment, it is preferable that the supporting mechanism 3 includes a rotary base 31, a first supporting plate 32, a second supporting plate 33, a second rotating shaft 34, and a bottom plate 35.

The rotating base 31 is rotatably disposed on the rack 1 through the first rotating shaft 6, so that the rotating base 31 can rotate relative to the rack 1, the second rotating shaft 34 is disposed on the rotating base 31, and the second rotating shaft 34 is perpendicular to the first rotating shaft 6, thereby enabling the rotating base 31 to rotate to drive the second rotating shaft 34 to rotate around the first rotating shaft 6. The first side (inner side) of the first support plate 32 is rotatably disposed on the second rotating shaft 34 by a first torsion spring (not shown), the first side (inner side) of the second support plate 33 is rotatably disposed on the second rotating shaft 34 by a second torsion spring (not shown), the first torsion spring and the second torsion spring function to provide an elastic force, and when the first support plate 32 and the second support plate 33 are not subjected to other external forces, the first support plate 32 and the second support plate 33 are located in the same plane for jointly supporting the sheet material 20. The bottom plate 35 is disposed on the rack 1 and located below the first and second support plates 32 and 33, and the bottom plate 35 is provided with protrusions 351 at positions corresponding to the second sides (outer sides) of the first and second support plates 32 and 33, so that the first and second support plates 32 and 33 can be subjected to resistance after touching the protrusions 351, and rotate around the second rotating shaft 34 to bend the sheet material 20 to a set angle.

When the pressing mechanism 4 is used specifically, the pressing mechanism can rotate around the first rotating shaft 6, so that the sheet material 20 jointly supported by the first supporting plate 32 and the second supporting plate 33 is pressed; as the pressing mechanism 4 gradually presses the sheet material 20, the rotating base 31 is correspondingly driven to rotate around the first rotating shaft 6, and the rotation of the rotating base 31 correspondingly rotates the second rotating shaft 34, so as to drive the first supporting plate 32 and the second supporting plate 33 which are installed on the second rotating shaft 34 to gradually approach the bottom plate 35; since the bottom plate 35 has the protrusions 351, the second side of the first support plate 32 and the second side of the second support plate 33 can both receive resistance to rotate around the second rotating shaft 34 during the process that the first support plate 32 and the second support plate 33 gradually approach the bottom plate 35, and thus, the sheet material 20 can be bent to a set angle.

In the above embodiment, it is preferable that the convex portion 351 is height-adjustable in a direction perpendicular to the upper surface of the base plate 35. When the sheet material 20 needs to be bent to a large extent, the protrusion 351 can be adjusted to be high, and when the sheet material needs to be bent to a small extent, the protrusion 351 can be adjusted to be low, so that the bending degree can be adjusted according to different sheet materials.

Example three:

referring to fig. 4, on the basis of the first embodiment, preferably, the middle portion of the supporting mechanism 3 is recessed to form a recessed portion 36, the middle portion of the pressing mechanism 4 extends to form a pressing portion 41 toward the supporting mechanism 3, the pressing portion 41 corresponds to the recessed portion 36, the pressing mechanism 4 can rotate around the first rotating shaft 6, and the pressing portion 41 is driven to gradually approach the recessed portion 36, so as to drive the sheet material 20 to bend to a set angle.

Specifically, after the sheet material 20 is supported on the supporting mechanism 3, the pressing mechanism 4 rotates around the first rotating shaft 6, so that the pressing portion 41 can press the sheet material 20 toward the concave portion 36 until the bottom of the sheet material 20 completely fits into the concave portion 36, and at this time, the sheet material 20 is bent to a set angle (i.e., the position shown in fig. 4).

In fig. 4, when the pressing mechanism 4 presses down the sheet material 20, the sheet material 20 is bent between the concave portion 36 of the supporting mechanism 3 and the pressing portion 41 of the pressing mechanism 4, and the length of the bundling belt shown by the dotted line in the figure changes in accordance with the degree of bending of the sheet material 20, thereby achieving the purpose of reducing the circumferential length of the bundled bundling belt and achieving tight bundling.

Example four:

referring to fig. 5, in the first embodiment, it is preferable that the supporting mechanism 3 includes a supporting plate 37 and a pad 38, the pad 38 is disposed on both sides of the supporting plate 37, and the pressing mechanism 4 can rotate around the first rotating shaft 6 to bend the sheet material 20 supported on the pad 38 to a set angle.

Specifically, since the supporting plate 37 is provided with the cushion blocks 38, when the sheet material 20 is ejected from the spiral paper stacking tray 2, the sheet material is stacked on the cushion blocks 38, and after a predetermined number of sheet materials 20 are stacked on the cushion blocks 38, the pressing mechanism 4 rotates around the first rotating shaft 6, and presses down the middle portion of the sheet material 20, so that the middle portion of the sheet material 20 is recessed inward, and when the bottom portion of the sheet material 20 is in contact with the supporting plate 37, the sheet material 20 is bent to a set angle.

In the above embodiment, the height of the spacer block 38 is preferably adjustable, so that the bending degree of the sheet material 20 can be adjusted to meet the bending requirements of different sheet materials.

To sum up, the automatic bending and binding device for flexible sheet materials provided by the utility model can stack the sheet materials on the supporting mechanism in sequence in the process of picking off the sheet materials from the spiral paper folding disc, and when a predetermined amount of sheet materials are picked off from the spiral paper folding disc, the spiral paper folding disc stops releasing the sheet materials; then, the pressing mechanism is matched with the supporting mechanism to bend the stacked sheet materials to a set angle; finally, the sheet materials in the bent state are bundled by a bundling mechanism, so that the perimeter of the outer ring of the stacked sheet materials is shortened in the bundling process; when the strapping is completed, the pressing mechanism no longer applies force to the strapped sheet material, and the sheet material can rebound accordingly, thereby tightening the strap. The device can improve the overall appearance of the bound sheet materials, thereby improving the binding effect of the sheet materials.

The above has described the flexible sheet material automatic bending and binding apparatus provided by the present invention in detail. Any obvious modifications thereto, which would occur to one skilled in the art and which would not depart from the essence of the invention, would constitute a violation of the patent rights and would bear corresponding legal obligations.

Claims (10)

1. An automatic bending and binding device for flexible sheet materials is characterized in that: the method comprises the following steps:

a frame;

the spiral paper folding tray is arranged on the rack, and the rack is provided with a blocking part which is used for blocking the sheet materials in the spiral paper folding tray so as to pick the sheet materials which rotate to a preset angle from the spiral paper folding tray;

the supporting mechanism is arranged on the rack and positioned below the spiral paper folding disc so as to support the sheet materials picked from the spiral paper folding disc;

the pressing mechanism is rotatably arranged on the rack through a first rotating shaft and can rotate around the first rotating shaft so as to be matched with the bearing mechanism to press and bend the sheet material to a set angle;

and the bundling mechanism is arranged on the rack and is used for bundling and fixing the sheet materials in the bent state.

2. The flexible sheet material automated bend strapping apparatus as defined in claim 1, further comprising: the bearing mechanism comprises a rotating seat, a first bearing plate, a second rotating shaft and a bottom plate;

the rotating seat is rotatably arranged on the rack through the first rotating shaft, the second rotating shaft is arranged on the rotating seat, and the second rotating shaft is perpendicular to the first rotating shaft;

the first side of the first bearing plate is rotatably arranged on the second rotating shaft through a first torsion spring, the first side of the second bearing plate is rotatably arranged on the second rotating shaft through a second torsion spring, and the first bearing plate and the second bearing plate can jointly bear the flaky materials;

the bottom plate is arranged on the rack and is positioned below the first bearing plate and the second bearing plate, and the positions, corresponding to the second side of the first bearing plate and the second side of the second bearing plate, on the bottom plate are both provided with a protruding part;

the pressing mechanism can press the flaky material commonly supported by the first bearing plate and the second bearing plate and can drive the rotary seat to rotate around the first rotating shaft so as to drive the first bearing plate and the second bearing plate to gradually approach the base plate, and both the second side of the first bearing plate and the second side of the second bearing plate can rotate around the second rotating shaft under the blocking of the protruding portion so as to drive the flaky material to be bent to the set angle.

3. The flexible sheet material automated bend strapping apparatus as defined in claim 2, wherein: the height of the convex part is adjustable along the direction vertical to the upper surface of the bottom plate.

4. The flexible sheet material automated bend strapping apparatus as defined in claim 1, further comprising: the middle part of the bearing mechanism is recessed to form a recessed part, the middle part of the pressing mechanism extends towards the bearing mechanism to form a pressing part, the pressing part corresponds to the recessed part, and the pressing mechanism drives the pressing part to gradually approach the recessed part so as to drive the sheet material to be bent to the set angle.

5. The flexible sheet material automated bend strapping apparatus as defined in claim 1, further comprising: the supporting mechanism comprises a supporting plate and cushion blocks, the cushion blocks are arranged on two sides of the supporting plate, and the pressing mechanism can bend the sheet materials supported on the cushion blocks to the set angle.

6. The flexible sheet material automated bend strapping apparatus as defined in claim 1, further comprising: still include strapping and send out the mechanism, strapping send out the mechanism set up in the frame, and be located one side of bearing mechanism, strapping send out the mechanism be used for sending out the strapping and place in on the bearing mechanism, can pile up on the strapping the sheet material.

7. The flexible sheet material automated bend strapping apparatus as defined in claim 6, wherein: the bundling mechanism comprises a pressing head and an ironing head, and the pressing head and the ironing head are respectively arranged on two sides of the bearing mechanism;

the pressing mechanism is matched with the supporting mechanism to press and bend the sheet material to a set angle, and the pressing head and the ironing head respectively extend out and drive two ends of the strapping tape to be connected together after being folded back.

8. The flexible sheet material automated bend strapping apparatus as defined in claim 1, further comprising: the sheet material bundling device is characterized by further comprising a pushing mechanism, wherein the pushing mechanism is arranged below the supporting mechanism and can move along a set direction so as to push bundled sheet materials to a set position.

9. The flexible sheet material automated bend strapping apparatus as defined in claim 1, further comprising: the paper arranging device is characterized by further comprising paper arranging strips, wherein the paper arranging strips are arranged on the rack and opposite to the blocking parts, and a set distance is reserved between the paper arranging strips and the blocking parts, so that the sheet-shaped materials can be clamped between the paper arranging strips and the blocking parts.

10. The flexible sheet material automated bend strapping apparatus as defined in claim 7, wherein: the counting sensor is used for counting the sheet materials which are rejected from the spiral paper folding disc, and the counting sensor, the spiral paper folding disc, the pressing mechanism, the strapping tape sending-out mechanism and the strapping mechanism are all electrically connected with the controller;

the controller can control the strapping tape sending mechanism to send the strapping tape to the supporting mechanism; the controller is further capable of controlling the spiral stacker to rotate to release the sheet material, and capable of controlling the spiral stacker to stop releasing the sheet material after the sheet material reaches a predetermined amount; the controller can also control the pressing mechanism to be matched with the supporting mechanism to press and bend the sheet material to a set angle; the controller can also control the bundling mechanism to bundle and fix the sheet materials in the bent state.

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