CN216638417U - Compact integrated high-speed folding machine - Google Patents

Abstract

A compact integrated high-speed folding machine comprises a large rotary drum, a splitting mechanism, an inserting and folding mechanism, an adsorbing and transferring mechanism, an unreeling mechanism and a hooking and folding mechanism, wherein the splitting mechanism, the inserting and folding mechanism and the adsorbing and transferring mechanism are arranged outside the large rotary drum, a bottom knife roller of the splitting mechanism and an inserting and folding roller of the inserting and folding mechanism are respectively positioned at the upper end and the lower end of a vertical central line of the large rotary drum, the adsorbing and transferring mechanism and the unreeling mechanism are respectively positioned at two sides of the vertical central line, the hooking and folding mechanism is arranged at one side of the adsorbing and transferring mechanism, after being folded for multiple times in the axial direction of a gauze piece on the large rotary drum, the gauze piece is linked and transferred to the hooking and folding mechanism, and after being folded for multiple times in the radial direction of the gauze piece on the hooking and folding mechanism, the gauze piece with a barium line and without the barium line can be produced simultaneously.

Description

Compact integrated high-speed folding machine

Technical Field

The utility model belongs to the technical field of medical article production equipment, and relates to a compact integrated high-speed folding machine.

Background

In medical supplies, the surgical gauze comprises a gauze piece with a barium wire and a gauze piece without the barium wire, the currently adopted preparation method is that the gauze piece is cut and then folded, the barium wire is pressed and attached to the gauze piece, the barium wire is manually folded and sewn in a folded layer of the gauze, the barium wire and the gauze are attached by pulling the barium wire by a barium wire paying-off mechanism, the barium wire is pressed on the gauze piece by pressure equipment when passing through a plurality of gauze pieces, the barium wire is still connected after being attached to the plurality of gauze pieces, the barium wire is also required to be cut by cutting equipment, and because a section of the barium wire is connected between every two gauze pieces and has a certain distance, the barium wire waste is large after cutting; secondly, gauze pieces with or without barium threads cannot be co-produced.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a compact integrated high-speed folding machine, wherein a splitting mechanism, an inserting and folding mechanism and an absorbing and transferring mechanism are arranged outside a large rotary drum, a bottom knife roller of the splitting mechanism and an inserting roller of the inserting and folding mechanism are respectively positioned at the upper end and the lower end of a vertical central line of the large rotary drum, the absorbing and transferring mechanism and an unreeling mechanism are respectively positioned at two sides of the vertical central line, one side of the absorbing and transferring mechanism is provided with a hooking and folding mechanism, a gauze piece is folded for multiple times along the axial direction of the gauze piece on the large rotary drum and is transferred to the hooking and folding mechanism in a linkage manner, the gauze piece is folded for multiple times along the radial direction of the gauze piece on the hooking and folding mechanism, and the gauze piece with barium lines and without the barium lines can be produced simultaneously.

In order to solve the technical problems, the technical scheme adopted by the utility model is as follows: a compact integrated high-speed folding machine comprises a large rotary drum, a splitting mechanism, an inserting and folding mechanism, an adsorption transfer mechanism, an unreeling mechanism and a hooking and folding mechanism; the bottom knife roll of the splitting mechanism and the middle insert roll of the inserting and folding mechanism are respectively positioned at the upper end and the lower end of a vertical central line of the large rotary drum, the adsorption transfer mechanism and the unreeling mechanism are respectively positioned at two sides of the vertical central line, and the hooking and folding mechanism is positioned at one side of the adsorption transfer mechanism; the slitting mechanism performs adsorption, traction and transfer while slitting.

A heating roller is arranged between the unwinding mechanism and the splitting mechanism, and a barium wire guide groove is arranged in front of the heating roller; the heating roller is of a segmented heating structure.

Folding and clamping seams are arranged on the drum wall of the large rotary drum, adsorption holes are arranged on two sides of the folding and clamping seam between every two folding and clamping seams and communicated with the negative pressure cavity of the large rotary drum, and a through hole is arranged on a hollow shaft penetrating through the drum body and communicated with the negative pressure cavity; the folding knife of the folding and clamping mechanism swings in the folding and clamping seam, and the shifting fork rod of the shifting fork mechanism turns over at the upper part of the folding and clamping seam.

The two ends of the hollow shaft are also matched with a fixed track disc and a movable track disc, and the folding and clamping mechanism and the shifting fork mechanism are matched with the fixed track disc and the movable track disc.

The slitting mechanism comprises a cutter roller matched with a bottom cutter roller, and traction rollers are arranged on the upper parts of the bottom cutter roller and the cutter roller; the bottom knife roller and the cutter roller are respectively provided with a bottom knife and a cutter, the bottom knife and the cutter are mutually butted at the position of a tangent point, the bottom knife is recessed in the bottom knife roller, and the cutter extends out of the cutter roller.

The inserting and folding mechanism comprises two inserting rollers, a pressing roller and an intermediate inserting roller, and the two inserting rollers and the pressing roller are respectively positioned on the upper side and the lower side of the horizontal central line of the large rotary drum; two slotting tools of the two slotting rollers and the middle slotting tool of the middle slotting roller correspond to the folding and clamping seam on the large rotary drum, and the three pressing heads on the pressing rollers are in rolling contact with the drum wall.

The adsorption transfer mechanism comprises a plurality of adsorption flaps which are distributed on the negative pressure shaft in a fan shape, and a hook pull groove which is arranged between the adsorption flaps; the arc-shaped end face of the adsorption flap is provided with a plurality of transfer adsorption holes communicated with the negative pressure shaft, and two sides of each transfer adsorption hole are provided with groove holes.

The upper part of the unreeling mechanism is provided with a barium wire traction hook, and a flanging mechanism is arranged between the barium wire traction hook and the heating roller; one side or both sides of the axial direction of the transition roller of the edge folding mechanism are provided with edge pressing rods which are contacted with the transition roller, one side of the transition roller is also provided with a shaping wheel, and the barium wire guide groove is positioned between the shaping wheel and the heating roller.

The hook folding mechanism comprises a hook folding plate and a push plate which are connected with the longitudinal sliding table, and an insertion folding plate which is connected with the horizontal sliding table, the hook folding plate is positioned in a gap between the accommodating groove and the guide plate to slide, the push plate is positioned in the accommodating groove to slide, and the insertion folding plate penetrates through folding seams on the guide plate and the accommodating groove; the buffer positioned on one side of the guide plate is connected with the sliding plate, and the buffer penetrates through the guide plate to go deep into a gap between the accommodating groove and the guide plate.

The utility model has the main beneficial effects that:

the splitting mechanism, the inserting and folding mechanism and the adsorbing and transferring mechanism are distributed around the large rotary drum and are connected with the wallboard, the bottom knife roller of the splitting mechanism and the middle inserting roller of the inserting and folding mechanism are respectively positioned at the upper end and the lower end of the vertical central line of the large rotary drum, so that the overall height is greatly reduced, the unwinding mechanism and the adsorbing and transferring mechanism are conveniently distributed on the two sides of the vertical central line of the large rotary drum and are connected with the wallboard, and the overall length is reduced.

The large rotary drum is matched with the splitting mechanism and the inserting and folding mechanism in the rotating process to complete multiple folding of the gauze pieces in the axial direction, and finally strip-shaped gauze is formed.

The strip-shaped gauze is transferred to the hooking and folding mechanism through the adsorption transfer mechanism, and the hooking and folding mechanism carries out radial folding on the strip-shaped gauze.

And meanwhile, the two unwinding mechanisms are adopted for unwinding, so that the gauze piece without the barium wire can be produced, the gauze piece with the barium wire can also be produced, and the two can be produced simultaneously.

The barium wire is attached to the gauze piece at the heating roller to form a whole, and is synchronously cut and folded with the gauze piece in the cutting and folding processes, so that the barium wire cannot cause waste.

Drawings

The utility model is further illustrated by the following examples in conjunction with the accompanying drawings:

FIG. 1 is a schematic flow chart of the present invention.

FIG. 2 is a schematic isometric view of the present invention.

FIG. 3 is another isometric view of the present invention.

Fig. 4 is a front view of fig. 2.

Fig. 5 is a top view of fig. 4.

Fig. 6 is a right side view of fig. 4.

FIG. 7 is a partial schematic view of the large drum of the present invention.

Fig. 8 is a schematic front view of the large drum of the present invention in cooperation with a fixed track disk and a movable track disk.

Fig. 9 is a cross-sectional view taken at a-a of fig. 8.

Fig. 10 is a sectional view taken at B-B of fig. 8.

FIG. 11 is a schematic structural view of a folding and clamping mechanism connected with a large rotary drum according to the present invention.

FIG. 12 is a schematic structural diagram of a fork mechanism connected with a large rotary drum.

Fig. 13 is a schematic structural view of the adsorption transfer mechanism of the present invention.

Fig. 14 is a schematic structural view of the hooking and folding mechanism of the utility model.

Fig. 15 is a front view of fig. 14.

Fig. 16 is a top view of fig. 15.

Fig. 17 is a schematic cross-sectional view at C-C of fig. 15.

Fig. 18 is an enlarged schematic view of fig. 15 at D.

Fig. 19 is a view showing the positional relationship between the hook flap and the insertion flap of the hooking and folding mechanism of the present invention.

Fig. 20 is a schematic view of the hook flap of the present invention.

Fig. 21 is a schematic view of the structure of the guide plate of the present invention.

Fig. 21 is a schematic structural view of the guide plate of the present invention.

Fig. 22 is a schematic view showing the construction of a bed knife roll and a cutter roll according to the present invention.

FIG. 23 is a view showing the state of the bottom knife roller and the cutter roller in cooperation with slitting of the gauze according to the present invention.

In the figure: the device comprises a large rotary drum 1, a folding and clamping seam 11, an adsorption hole 12, a hollow shaft 13, a folding and clamping knife 14, a shifting fork rod 15, a fixed track disc 16, a movable track disc 17, a cutting mechanism 2, a bottom knife roller 21, a cutter roller 22, a traction roller 23, an insertion and folding mechanism 3, two insertion rollers 31, a compression roller 32, an intermediate roller 33, an adsorption and transfer mechanism 4, a negative pressure shaft 41, an adsorption flap 42, a hooking and pulling groove 43, an unreeling mechanism 5, a hooking and folding mechanism 6, a longitudinal sliding table 61, a hooking and folding plate 62, a push plate 63, a horizontal sliding table 64, an insertion and folding plate 65, a storage groove 66, a guide plate 67, a buffer 68, a sliding plate 69, a heating roller 7, a barium wire guide groove 71 and a barium wire traction hook 72.

Detailed Description

As shown in fig. 1 to 23, a compact integrated high-speed folding machine includes a large drum 1, a splitting mechanism 2, an inserting and folding mechanism 3, an adsorbing and transferring mechanism 4, an unwinding mechanism 5 and a hooking and folding mechanism 6; the bottom knife roller 21 of the splitting mechanism 2 and the middle inserting roller 33 of the inserting and folding mechanism 3 are respectively positioned at the upper end and the lower end of the vertical center line of the large rotary drum 1, the adsorption transfer mechanism 4 and the unreeling mechanism 5 are respectively positioned at two sides of the vertical center line, and the hooking and folding mechanism 6 is positioned at one side of the adsorption transfer mechanism 4; the slitting mechanism 2 performs the adsorption, the traction and the transfer while slitting. When the gauze piece folding machine is used, the gauze piece is folded for multiple times in the axial direction on the large rotary drum 1 and is transferred to the hooking and folding mechanism 6 in a linkage manner, the gauze piece is folded for multiple times in the radial direction on the hooking and folding mechanism 6, and the gauze pieces with the barium lines and without the barium lines can be produced.

In a preferable scheme, a heating roller 7 is further arranged between the unwinding mechanism 5 and the splitting mechanism 2, and a barium wire guide groove 71 is arranged in front of the heating roller 7; the heating roller 7 is a stage heating structure.

Preferably, the unwinding mechanism 5 comprises an unwinding shaft connected to the unwinding frame, and a motor connected to the unwinding shaft, the gauze roll unwinding and unwinding shaft are matched, and the motor drives the unwinding shaft to unwind the gauze roll.

Preferably, the unwinding mechanisms 5 are in two groups and synchronously release the reels during simultaneous operation.

Preferably, the heating roller 7 is heated in a sectional manner, and when the gauze passes through, the gauze is atomized and moistened, and then the non-crease part of the gauze which needs to be folded subsequently is heated; the gauze piece folding device aims to keep the wettability of the crease, so that the crease is softer relative to other areas of the gauze, and the gauze piece can be conveniently turned and folded during subsequent folding.

Preferably, when the gauze piece with the barium wire is required to be produced, the end of the barium wire is taken out of the barium wire box, is introduced into the heating roller 7 from the barium wire guide groove 71, is heated by the heating roller 7, and is pressed and attached to the gauze by the pressing wheel on the upper part of the heating roller 7.

Preferably, the barium guide groove 71 is used for guiding the barium thread and enabling the barium thread to be located in a set area of the gauze piece, and the area where the barium thread is located is a heating area.

In a preferable scheme, folding and clamping seams 11 are arranged on the drum wall of the large rotary drum 1, two sides of the folding and clamping seam 11 between every two folding and clamping seams 11 are provided with adsorption holes 12 which are communicated with a negative pressure cavity of the large rotary drum 1, and a hollow shaft 13 penetrating through a drum body is provided with a through hole which is communicated with the negative pressure cavity; a folding knife 14 of the folding and clamping mechanism is positioned in the folding and clamping seam 11 to swing, and a shifting fork rod 15 of the shifting fork mechanism is positioned at the upper part of the folding and clamping seam 11 to turn. When in use, the hollow shaft 13 at one end of the large rotary drum 1 is communicated with a vacuum pump, so that a negative pressure cavity in the drum body forms negative pressure, and the adsorption holes 12 generate adsorption force.

Preferably, the folding and clamping mechanism comprises a folding and clamping knife 14 connected with the folding and clamping shaft and a clamping block connected with one end of the folding and clamping shaft, and the folding and clamping roller is connected with the clamping block; during installation, the folding clamp shaft penetrates through toothed plates at two ends of the drum body to be matched with the toothed plates, and the folding clamp roller is positioned outside the toothed plates and is in rolling fit with the fixed track disc 16 or the movable track disc 17.

Preferably, the shifting fork mechanism comprises swing arms connected with two ends of a shifting fork shaft and a shifting fork rod 15 connected with the swing arms, and a shifting fork roller is connected with one of the swing arms; when the device is installed, the shifting fork shaft penetrates through the drum body to be matched with the drum body, and the shifting fork roller wheel is matched with the fixed track disc 16 or the movable track disc 17 in a rolling mode.

In a preferable scheme, a fixed track disc 16 and a movable track disc 17 are further matched at two ends of the hollow shaft 13, and the folding and clamping mechanism and the shifting fork mechanism are matched with the fixed track disc 16 and the movable track disc 17. During installation, the fixed track disc 16 is fixedly connected with the wall plate, the movable track disc 17 is connected with the hollow shaft 13, the hollow shaft 13 drives the movable track disc 17 and the large rotary drum 1 to rotate together when rotating, and the folding and clamping mechanism and the shifting fork mechanism connected with the large rotary drum 1 synchronously rotate along with the movable track disc and the large rotary drum.

Preferably, the fixed track disc 16 and the movable track disc 17 both comprise an inner track and an outer track, the folding rollers of the folding mechanism cooperate with the outer track, and the shifting rollers of the shifting fork mechanism cooperate with the inner track.

Preferably, the plurality of pinch rollers are partially disposed on the outer track of the fixed track plate 16 and partially disposed on the outer track of the movable track plate 17.

Preferably, the plurality of fork rollers are distributed partly on the inner track of the fixed track disk 16 and partly on the inner track of the movable track disk 17.

Preferably, in the process that the folding and clamping roller is matched with the outer track in a rolling way, the folding and clamping shaft is driven to drive the folding and clamping knife 14 to swing at each folding and clamping node when the large rotary drum 1 rotates, so as to clamp the crease of the gauze piece or release the clamping.

Preferably, in the process that the shifting fork roller is matched with the inner track in a rolling mode, the driving swing arm drives the shifting fork shaft to rotate, the shifting fork shaft drives the shifting fork rod 15 to turn over at each pressing and holding node when the large rotary drum 1 rotates when rotating, and gauze at the folded position is pressed and held or pressing and holding are released.

In a preferred scheme, the slitting mechanism 2 comprises a cutter roller 22 matched with a bottom cutter roller 21, and a traction roller 23 is arranged at the upper parts of the bottom cutter roller 21 and the cutter roller 22; the bottom knife roller 21 and the cutter roller 22 are respectively provided with a bottom knife and a cutter, the bottom knife and the cutter are mutually butted at the position of a tangent point, the bottom knife is recessed in the bottom knife roller 21, and the cutter extends out of the cutter roller 22. When the gauze cutting machine is used, the traction roller 23 is mainly used for drawing gauze to a position between the bottom knife roller 21 and the cutter roller 22, and the gauze is cut off through the bottom knife and the cutter on the bottom knife roller 21 and the cutter roller 22 to form a gauze piece.

Preferably, the diameter of the bottom knife roll 21 is 1-3 mm smaller than that of the cutter roll 22.

Preferably, the bottom knife roller 21 and the cutter roller 22 are positioned on the same horizontal axis and tangent, the bottom knife is recessed in the bottom knife roller 21, and the cutter extends out of the cutter roller 22, so that the end of the gauze cut-off part is still clamped by the bottom knife roller 21 and the cutter roller 22 at the moment of gauze cutting-off, and the gauze is prevented from rebounding towards the traction roller 23, so that the gauze can be continuously and uninterruptedly cut, and tension force is formed on the gauze.

Preferably, the inside hollow chamber that sets up of end knife roller 21, the hollow shaft and the hollow chamber intercommunication at both ends adopt centrifugal fan and hollow shaft intercommunication, make its hollow chamber produce the negative pressure to communicate with the negative pressure hole on roll body surface, thereby avoid it to drop at the in-process that shifts the gauze piece.

Preferably, the bottom knife roller 21 is further provided with a slotting knife for inserting the front end crease of the gauze piece into the folding and clamping slit 11 on the large rotary drum 1 to complete the first folding of the gauze piece.

In a preferable scheme, the inserting and folding mechanism 3 comprises two inserting rollers 31, a pressing roller 32 and a middle inserting roller 33, wherein the two inserting rollers 31 and the pressing roller 32 are respectively positioned at the upper side and the lower side of the horizontal central line of the large rotary drum 1; the two slotting knives of the two slotting rollers 31 and the middle slotting knife of the middle slotting roller 33 correspond to the folding and clamping seam 11 on the large rotary drum 1, and the three pressing heads on the pressing roller 32 are in rolling contact with the drum wall. When in use, the two slotting tools on the two slotting rollers 31 are used for inserting the rear ends of the gauze pieces into the folding and clamping seams 11 on the large rotary drum 1, and the second folding of the gauze pieces is completed in a matching manner; the press roller 32 is used for rolling the gauze piece after the secondary folding; the middle knife of the middle roller 33 is used for inserting the middle part of the gauze piece into the folding and clamping seam 11 on the large rotary drum 1, and the gauze piece is centered and folded in a matching way.

Preferably, a gearwheel is arranged outside the wall plate on one side of the movable track disc 17 and connected with the hollow shaft 13, and the gearwheel drives the hollow shaft 13 to rotate.

Preferably, the gears connected with the two inserting rollers 31, the pressing roller 32 and the middle inserting roller 33 of the inserting and folding mechanism 3 and the gear connected with the negative pressure shaft 41 of the absorption and transfer mechanism 4 are all meshed with the large gear, and the gear connected with the output end of the driving motor is meshed with the gear connected with the negative pressure shaft 41.

In a preferred embodiment, the adsorption transfer mechanism 4 includes a plurality of adsorption flaps 42 distributed in a fan shape on the negative pressure shaft 41, and a hook pull groove 43 disposed between the adsorption flaps 42; the arc-shaped end face of the adsorption flap 42 is provided with a plurality of transfer adsorption holes communicated with the negative pressure shaft 41, and two sides of each transfer adsorption hole are provided with groove holes. When the vacuum adsorption device is used, the negative pressure shaft 41 is communicated with a negative pressure fan, the transfer adsorption holes in the adsorption flaps 42 are communicated with the negative pressure shaft 41, and adsorption force is formed at the arc-shaped end surfaces of the adsorption flaps 42; the hook pull groove 43 is for receiving the hook flap 62.

In a preferable scheme, a barium wire traction hook 72 is arranged at the upper part of the unwinding mechanism 5, and a folding mechanism is arranged between the barium wire traction hook 72 and the heating roller 7; one side or both sides of the transition roller of flanging mechanism's axial set up the crimping pole rather than contacting, and transition roller one side still sets up the forming wheel, and barium line guiding groove 71 is located between forming wheel and warming mill 7. When the barium-line drawing hook 72 is used, the barium-line drawing hook 72 on the upper portion of the unreeling mechanism 5 is used for leading out barium lines in a barium-line box behind a gauze roll when the barium-line attached gauze piece is produced, and the barium lines penetrate through the barium-line drawing hook 72 and are guided to the shaping wheel.

Preferably, the folding mechanism is used for folding the gauze, and the principle is that when the gauze passes through the transition roller, the edge pressing rods at two ends of the transition roller are used for pressing and holding the folded edges at two sides of the gauze on the edge of the transition roller, so that the folded edges are formed.

In a preferred scheme, the hooking and folding mechanism 6 comprises a hook folding plate 62 and a push plate 63 which are connected with the longitudinal sliding table 61, and an insertion folding plate 65 which is connected with the horizontal sliding table 64, wherein the hook folding plate 62 slides in a gap between the accommodating groove 66 and the guide plate 67, the push plate 63 slides in the accommodating groove 66, and the insertion folding plate 65 penetrates through a folding gap on the guide plate 67 and the accommodating groove 66; a buffer 68 on one side of the guide plate 67 is connected to the slide plate 69, and the buffer 68 penetrates the guide plate 67 to penetrate into a gap between the receiving groove 66 and the guide plate 67. When the hook-and-loop type plug-in board is used, the longitudinal sliding table 61 drives the hook folding plate 62 and the push plate 63 to move back and forth along the longitudinal direction, the horizontal sliding table 64 pushes the plug-in board 65 to move back and forth along the horizontal direction, and the hook folding plate 62 and the plug-in board 65 are mutually and vertically crossed; the hook folding plate 62 radially hooks and folds the gauze folded into a strip shape, and the insertion folding plate 65 radially inserts and folds the hooked and folded gauze again.

Preferably, when the suction flap 42 reaches the hooking and folding mechanism 6, the hook flap plate 62 is positioned in the hooking groove 43 of the suction flap 42, and at the same time, the longitudinal sliding table 61 drives the hook flap plate 62 to hook the gauze strip when exiting the hooking groove 43 and to exit into the gap between the receiving groove 66 and the guide plate 67, and the gauze strip is folded on both sides of the gap.

Preferably, the sliding plate 69 drives the buffer 68 to pass through the guide plate 67 to press the four folded parts of the gauze strip against the wall plate outside the accommodating groove 66, the longitudinal sliding table 61 drives the hook folding plate 62 to exit from the hooking groove 43, and the push plate 63 synchronously exits from the end of the accommodating groove 66 along with the longitudinal sliding table.

Preferably, the sliding plate 69 drives the buffer 68 to move to one side to release the pressing of the folded part of the strip-shaped gauze; at the same time, the horizontal sliding table 64 drives the insertion flap 65 through the guide plate 67 and the slit opening of the storage groove 66 to fold one third of the other end of the strip-shaped gauze and to overlap the folded one third.

Preferably, during the retraction of the hook flap 62 into the gap between the receiving groove 66 and the guide plate 67, the push plate 63 is synchronously retracted and slid within the receiving groove 66 to push the folded gauze within the receiving groove 66 backward.

Preferably, the sliding plate 69 is connected to a horizontal rod, and the horizontal rod slides back and forth to drive the sliding plate 69 to move, and the sliding plate 69 drives the buffer 68 to move.

The above-described embodiments are merely preferred embodiments of the present invention, and should not be construed as limiting the present invention, and features in the embodiments and examples in the present application may be arbitrarily combined with each other without conflict. The protection scope of the present invention is defined by the claims, and includes equivalents of technical features of the claims. I.e., equivalent alterations and modifications within the scope hereof, are also intended to be within the scope of the utility model.

Claims (9)

1. A compact integrated high-speed folding machine is characterized in that: the device comprises a large rotary drum (1), a splitting mechanism (2), an inserting and folding mechanism (3), an adsorption transfer mechanism (4) and an unreeling mechanism (5); the bottom knife roller (21) of the splitting mechanism (2) and the middle inserting roller (33) of the inserting and folding mechanism (3) are respectively positioned at the upper end and the lower end of the vertical center line of the large rotary drum (1), and the adsorption transfer mechanism (4) and the unreeling mechanism (5) are respectively positioned at the two sides of the vertical center line; the slitting mechanism (2) performs adsorption, traction and transfer while slitting.

2. The compact, all-in-one, high-speed folder of claim 1, further comprising: a heating roller (7) is arranged between the unwinding mechanism (5) and the splitting mechanism (2), and a barium wire guide groove (71) is arranged in front of the heating roller (7); the heating roller (7) is of a segmented heating structure.

3. The compact, all-in-one, high-speed folder of claim 1, wherein: folding and clamping seams (11) are arranged on the drum wall of the large rotary drum (1), adsorption holes (12) are arranged on two sides of the folding and clamping seam (11) between every two folding and clamping seams (11) and communicated with a negative pressure cavity of the large rotary drum (1), and a through hole is arranged on a hollow shaft (13) penetrating through the drum body and communicated with the negative pressure cavity; a folding knife (14) of the folding and clamping mechanism is positioned in the folding and clamping seam (11) to swing, and a shifting fork rod (15) of the shifting fork mechanism is positioned at the upper part of the folding and clamping seam (11) to turn.

4. The compact, all-in-one, high-speed folder of claim 3 further comprising: the two ends of the hollow shaft (13) are also matched with a fixed track disc (16) and a movable track disc (17), and the folding and clamping mechanism and the shifting fork mechanism are matched with the fixed track disc (16) and the movable track disc (17).

5. The compact, all-in-one, high-speed folder of claim 1, further comprising: the slitting mechanism (2) comprises a cutter roller (22) matched with the bottom cutter roller (21), and a traction roller (23) is arranged on the upper parts of the bottom cutter roller (21) and the cutter roller (22); the bottom knife roller (21) and the cutter roller (22) are respectively provided with a bottom knife and a cutter, the bottom knife and the cutter are mutually butted at the position of a cutting point, the bottom knife is recessed in the bottom knife roller (21), and the cutter extends out of the cutter roller (22).

6. The compact, all-in-one, high-speed folder of claim 1, further comprising: the inserting and folding mechanism (3) comprises two inserting rollers (31), a pressing roller (32) and an inserting roller (33), and the two inserting rollers (31) and the pressing roller (32) are respectively positioned on the upper side and the lower side of the horizontal central line of the large rotary drum (1); two slotting knives of the two slotting rollers (31) and a middle slotting knife of the middle slotting roller (33) correspond to the folding and clamping seam (11) on the large rotary drum (1), and a three-pressure head on the pressure roller (32) is in rolling contact with the drum wall.

7. The compact, all-in-one, high-speed folder of claim 1, wherein: the adsorption transfer mechanism (4) comprises a plurality of adsorption flaps (42) which are distributed on a negative pressure shaft (41) in a fan shape, and a hook pull groove (43) which is arranged between the adsorption flaps (42); the arc-shaped end face of the adsorption flap (42) is provided with a plurality of transfer adsorption holes communicated with the negative pressure shaft (41), and two sides of each transfer adsorption hole are provided with groove holes.

8. The compact, all-in-one, high-speed folder of claim 2, further comprising: a barium wire traction hook (72) is arranged at the upper part of the unreeling mechanism (5), and a folding mechanism is arranged between the barium wire traction hook (72) and the heating roller (7); one side or two sides of the axial direction of a transition roller of the edge folding mechanism are provided with edge pressing rods which are contacted with the transition roller, one side of the transition roller is also provided with a shaping wheel, and a barium wire guide groove (71) is positioned between the shaping wheel and the heating roller (7).

9. The compact, all-in-one, high-speed folder of claim 1, further comprising: the hook folding mechanism (6) comprises a hook folding plate (62) and a push plate (63) which are connected with a longitudinal sliding table (61), and an insertion folding plate (65) which is connected with a horizontal sliding table (64), wherein the hook folding plate (62) is positioned in a gap between the accommodating groove (66) and the guide plate (67) to slide, the push plate (63) is positioned in the accommodating groove (66) to slide, and the insertion folding plate (65) penetrates through the guide plate (67) and a seam opening on the accommodating groove (66); a buffer (68) positioned on one side of the guide plate (67) is connected with the sliding plate (69), and the buffer (68) penetrates through the guide plate (67) and goes deep into a gap between the accommodating groove (66) and the guide plate (67).

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