CN219790577U - High-speed packagine machine and filling device thereof - Google Patents

Abstract

The utility model discloses a high-speed packaging machine and a charging device thereof, and relates to the field of packaging machines. The utility model has the advantage of good working stability.

Description

High-speed packagine machine and filling device thereof

Technical Field

The utility model relates to the field of packaging machines, in particular to a high-speed packaging machine and a charging device thereof.

Background

In the prior art, as disclosed in publication number CN 112849604A at publication date 2021.05.28, the synchronous blanking system of the high-speed packaging machine ensures the accuracy of material filling by arranging the transition material receiving cup, but the transition material receiving cup is in linkage connection with the filling unit, the filling unit can drive the transition material receiving cup to rotate together when rotating, but the filling unit also has a lifting action, which has a little influence on the transition material receiving cup, and the following situations of structural dislocation and poor working stability can occur.

Disclosure of Invention

In order to overcome the defects of the background technology, the utility model provides a high-speed packaging machine with good working stability and a charging device thereof.

The utility model adopts the technical scheme that: the utility model provides a high-speed packagine machine's filling device, includes frame, pivot, swivel mount, the flourishing charging tray that is driven by the pivot, a plurality of circumference distributes fill unit and actuating mechanism, flourishing charging tray circumference is equipped with a plurality of and fills the discharge opening that the unit corresponds, every be equipped with the transition between discharge opening and the every filling unit and connect the material cup, flourishing charging tray below is equipped with the striker mechanism that carries out switch control to the discharge opening, flourishing charging tray below is equipped with the annular dish that supplies the installation of transition material cup and drives transition material cup wobbling cam mechanism, transition material cup has two states with discharge opening and filling unit intercommunication and dislocation when carrying out the swing action.

A first bracket for connecting the transition receiving cup and the annular disc is arranged between the transition receiving cup and the annular disc, and the first bracket is hinged with the annular disc; the first bracket is driven by the annular disc to rotate around the cam mechanism and is in rolling fit with the cam mechanism.

The cam mechanism comprises a first wheel disc fixedly connected with the frame and a first cam groove arranged on one side surface of the first wheel disc, and a third roller which is hinged to the first bracket and is in rolling fit in the first cam groove is arranged on the first bracket;

the annular disc is fixedly connected below the material containing disc; the cam mechanism is positioned below the annular disc and is fixedly connected with the frame; the annular disc is provided with a plurality of mounting columns which are circumferentially arranged and are used for the hinged connection of the first support, and the transition receiving cup is provided with a first action of aligning the discharge hole when being driven by the cam mechanism to swing outwards and a second action of dislocating with the discharge hole when being driven by the cam mechanism to swing inwards.

The annular disc is fixedly arranged on the rotating frame, and the cam mechanism is positioned above the annular disc and is fixedly connected with the frame; the transition receiving cup is provided with a first action of aligning the discharge hole when being driven by the cam mechanism to swing inwards and a second action of dislocating with the discharge hole when being driven by the cam mechanism to swing outwards.

The filling unit comprises lifting shafts, second gears connected with all the lifting shafts and filling cups arranged at the top ends of the lifting shafts, a rotating cam for driving the lifting shafts to rotate and a lifting cam for driving the lifting shafts to move up and down are arranged on the rack, a first track groove is further formed in the outer wall of the lifting cam, a second track groove is formed in the rotating cam, and a first roller in rolling fit with the first track groove and a second roller in rolling fit with the second track groove are arranged at the bottom end of the lifting shaft.

The driving mechanism comprises a first driving element and a transmission assembly for driving the filling unit and the rotating shaft to rotate, a clutch assembly for connecting the transmission assembly and the rotating shaft is arranged between the transmission assembly and the rotating shaft, and the transmission assembly comprises a first gear which is rotatably arranged on the frame and meshed with a second gear;

the transmission assembly further comprises a first gear shaft assembly meshed with the first gear, a second gear shaft assembly meshed with the first gear shaft assembly, an intermediate gear meshed with the second gear shaft assembly and a transmission gear meshed with the intermediate gear and installed on a rotating shaft, and one end of the clutch assembly is fixedly connected with the transmission gear while the other end of the clutch assembly is connected with the rotating shaft.

The first gear shaft assembly includes a first optical axis, a first slave gear and a second slave gear mounted on the first optical axis, the first slave gear being in mesh with the first gear;

the second gear shaft assembly includes a second optical axis and third and fourth slave gears mounted on the second optical axis, the third slave gear being in mesh with the second slave gear, the fourth slave gear being in mesh with the transfer gear.

The clutch assembly adopts an electromagnetic clutch;

the electromagnetic clutch comprises an upper clutch piece and a lower clutch piece, wherein the lower surface of the upper clutch piece is provided with a convex block, and the upper surface of the lower clutch piece is provided with a groove matched with the convex block;

when the number of the convex blocks is larger than one, the sizes of the convex blocks are different, and each groove is respectively matched with the different convex blocks.

The lower brake disc is arranged at the lower end of the rotating shaft, the upper brake disc is provided with a first state that the clutch component is separated from the lower brake disc after being closed, and a second state that the clutch component is separated from and contacts the lower brake disc.

The frame is provided with a second driving element connected with the second gear and a third driving element connected with the rotating shaft.

The material blocking mechanism comprises a connecting column arranged on the lower bottom wall of the material containing disc and a material blocking plate hinged to the connecting column, a fifth roller and a sixth roller are arranged on the material blocking plate, an elastic piece in interference fit with the material blocking plate is arranged on the mounting column, a support frame is arranged at the position below the material containing disc on the rack, and a first collision block corresponding to the fifth roller and a second collision block corresponding to the sixth roller are arranged on the support frame; the first bump block and the second bump block are all hinged, a plurality of power sources for adjusting the installation angles of the first bump block and the second bump block are further installed on the support frame, a limit groove is further formed in the support frame, and fixed shafts which penetrate through the limit groove and are hinged to the power sources are respectively arranged on the first bump block and the second bump block.

The utility model also provides another technical scheme, a high-speed packaging machine comprises a film placing device, a packaging bag forming device, a longitudinal sealing device and a sealing device, and further comprises the charging device.

The beneficial effects of the utility model are as follows: according to the technical scheme, the transition material receiving cup is arranged, so that solid materials falling from a discharge hole of the material containing disc can be effectively prevented from scattering outside equipment in a high-speed filling process, the cam mechanism drives the transition material receiving to perform radial swinging motion, the filling unit can lift up and down and horizontally swing, the transition material receiving cup is two independent mechanisms, the lifting of the liftable inserting bag filling cup cannot be influenced by the transition material receiving cup, and the movements of the transition material receiving cup and the lifting inserting bag filling cup are synchronized through debugging; has the advantage of good working stability.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of the present utility model.

Fig. 2 is a schematic diagram of a split structure according to a first embodiment of the present utility model.

Fig. 3 is a schematic structural view of an annular disc and a transition receiving cup according to a first embodiment of the present utility model.

Fig. 4 is a schematic structural diagram of a second embodiment of the present utility model.

Fig. 5 is a schematic structural diagram of a first wheel disc according to a second embodiment of the present utility model.

Fig. 6 is a schematic structural diagram of a third embodiment of the present utility model.

Fig. 7 is a schematic view of a structure of a third embodiment of the present utility model.

Fig. 8 is a schematic structural diagram of a third embodiment of the present utility model on a charging device.

Fig. 9 is a schematic structural diagram of a fourth embodiment of the present utility model.

Fig. 10 is a schematic structural view of the filling unit.

Fig. 11 is a schematic structural view of a high-speed packing machine according to the present utility model.

Fig. 12 is a schematic structural view of the dam mechanism.

Fig. 13 is a schematic structural view of the clutch assembly.

Detailed Description

Embodiments of the utility model are further described below with reference to the accompanying drawings:

as shown in the figure, the charging device of the high-speed packaging machine comprises a frame 1, a rotating shaft 2, a rotating frame 3, a material containing disc 4 driven by the rotating shaft 2, a plurality of circumferentially distributed charging units 5 and a driving mechanism 6, wherein the material containing disc 4 is circumferentially provided with a plurality of discharging holes 41 corresponding to the charging units 5, a transition material receiving cup 7 is arranged between each discharging hole 41 and each charging unit 5, a material blocking mechanism 8 for controlling the opening and closing of the discharging hole 41 is arranged below the material containing disc 4, an annular disc 71 for installing the transition material receiving cup 7 and a cam mechanism 72 for driving the transition material receiving cup 7 to swing are arranged below the material containing disc 4, and the transition material receiving cup 7 is provided with two states of communicating and dislocating the discharging holes 41 with the charging units 5 during the swing action; according to the technical scheme, the transition material receiving cup is arranged, so that solid materials falling from a discharge hole of the material containing disc can be effectively prevented from scattering outside equipment in a high-speed filling process, the cam mechanism drives the transition material receiving to perform radial swinging motion, the filling unit can lift up and down and horizontally swing, the transition material receiving cup is two independent mechanisms, the lifting of the liftable inserting bag filling cup cannot be influenced by the transition material receiving cup, and the movements of the transition material receiving cup and the lifting inserting bag filling cup are synchronized through debugging; has the advantage of good working stability.

The cam mechanism has two embodiments;

embodiment one: a first bracket 74 for connecting the transition receiving cup 7 and the annular disc 71 is arranged between the transition receiving cup 7 and the annular disc, and the first bracket 74 is hinged with the annular disc; the first bracket 74 is driven by the annular disc 71 to rotate around the cam mechanism 72 and is in rolling fit with the cam mechanism 72;

the cam mechanism 72 comprises a first wheel disc 721 fixedly connected with the frame 1 and a first cam groove 722 arranged on one side surface of the first wheel disc 721, and a third roller 741 which is hinged and matched in a rolling way in the first cam groove 722 is arranged on the first bracket 74;

the annular disc 71 is fixedly connected below the material containing disc 4; the cam mechanism 72 is positioned below the annular disc 71 and is fixedly connected with the frame; the annular disc is provided with a plurality of mounting columns 73 which are circumferentially arranged and are used for being connected with the first support in a hinged mode, and the transition receiving cup 7 is provided with a first action of aligning with the discharge hole when being driven to swing outwards by the cam mechanism 72 and a second action of dislocating with the discharge hole when being driven to swing inwards.

In this embodiment, the cam mechanism 72 is located below the annular disc 71, the first cam groove is upward, the cam mechanism is not moving, the first bracket rolls around the cam mechanism, the transition receiving cup is driven to swing outwards, the upper end of the transition receiving cup is aligned with the discharge hole, and the lower end of the transition receiving cup is aligned with the filling cup.

Embodiment two: a first bracket 74 for connecting the transition receiving cup 7 and the annular disc 71 is arranged between the transition receiving cup 7 and the annular disc, and the first bracket 74 is hinged with the annular disc; the first bracket 74 is rotated around the cam mechanism 72 by the annular disc 71 and is in rolling engagement with the cam mechanism 72.

The cam mechanism 72 comprises a first wheel disc 721 fixedly connected with the frame 1 and a first cam groove 722 arranged on one side surface of the first wheel disc 721, and a third roller 741 which is hinged and matched in a rolling way in the first cam groove 722 is arranged on the first bracket 74;

the annular disc 71 is fixedly arranged on the rotating frame 3, and the cam mechanism 72 is positioned above the annular disc 71 and is fixedly connected with the frame; the transition receiving cup 7 is provided with a first action of aligning the discharge hole when being driven by the cam mechanism 72 to swing inwards and a second action of dislocating the discharge hole when being driven by the cam mechanism to swing outwards.

In this embodiment, the cam mechanism 72 is located above the annular disc 71, the first cam groove is downward, the cam mechanism is not moving, the first bracket rolls around the cam mechanism, the transition receiving cup is driven to swing outwards, the upper end of the transition receiving cup is aligned with the discharge hole, and the lower end of the transition receiving cup is aligned with the filling cup.

The two embodiments are all that the filling unit and the transition receiving cup are separated, the filling unit and the transition receiving cup are opposite to each other, the working stability is good, and the first cam groove makes the transition receiving cup realize two different swinging receiving actions by utilizing two different tracks of the first cam groove.

The filling unit 5 in this technical scheme includes lift axle 51, connects the second gear 52 of all lift axles 51 and installs the filling cup 53 on lift axle 51 top, be equipped with the rotation cam 11 of drive lift axle 51 pivoted and drive lift cam 12 of lift axle 51 up-and-down motion on the frame 1, still be equipped with first track groove 121 on the outer wall of lift cam 12, be equipped with second track groove 111 on the rotation cam 11, the lift axle 51 bottom be equipped with first track groove 121 roll-fit's first roller 511 and with second track groove 111 roll-fit's second roller 512, first track groove on the lift cam has the slope of height, and first roller rolls in first track inslot and can drive the lift axle up-and-down motion simultaneously when the lift cam rotates, second track groove and second roller roll-fit in the rotation cam, because second track groove sets up with the second gear is eccentric, and the second roller atress of lift axle bottom can make the lift axle rotate certain angle around self axle center.

The driving mechanism in the technical scheme has two embodiments, and both the two embodiments can be applied to the first embodiment and the second embodiment;

embodiment III: the driving mechanism 6 comprises a first driving element 61 and a transmission assembly 62 for driving the filling unit 5 and the rotating shaft 2 to rotate, a clutch assembly 63 for connecting the transmission assembly 62 and the rotating shaft 2 is arranged between the transmission assembly 62 and the rotating shaft 2, and the transmission assembly 62 comprises a first gear 621 rotatably arranged on the frame 1 and meshed with the second gear 52; the clutch assembly 63 adopts an electromagnetic clutch; the first driving element adopts a servo motor, the filling unit is driven to rotate by the transmission component, when the clutch component is closed, the transmission component is connected with the rotating shaft in a linkage way, and the rotating shaft and the rotating frame connected with the rotating shaft also synchronously rotate.

The electromagnetic clutch comprises an upper clutch member 631 and a lower clutch member 632, wherein the lower surface of the upper clutch member 631 is provided with a convex block 633, and the upper surface of the lower clutch member 632 is provided with a groove 634 matched with the convex block 633;

when the number of the convex blocks is larger than one, the sizes of the convex blocks are different, and each groove is respectively matched with the different convex blocks.

The bump in this embodiment is five, and the size is different, and the last separation and reunion spare just can adsorb with lower separation and reunion spare after bump and recess coincide completely, can play the accurate effect of location, and five bumps can greatly increased area of contact moreover, prolongs electromagnetic clutch's life, of course also can set up a bump and recess, just so can make effort concentrate on a point, shortens life.

A bracket 17 arranged on the frame is arranged below the rotating shaft 2, a lower brake disc 18 is arranged on the bracket 17, an upper brake disc 19 corresponding to the lower brake disc 18 is arranged at the lower end of the rotating shaft 2, and the upper brake disc has a first state that the clutch component is separated from the lower brake disc after being closed and a second state that the clutch component is separated and contacts the lower brake disc after being contacted; when the rotating shaft and the filling unit do not need to synchronously rotate, the clutch assembly is closed to separate the rotating shaft and the filling unit, and the upper brake disc on the rotating shaft moves downwards to contact and rub with the lower brake disc, so that the speed reduction and the rotation stopping are completed.

The transmission assembly 62 further comprises a first gear shaft assembly meshed with the first gear 621, a second gear shaft assembly meshed with the first gear shaft assembly, an intermediate gear 622 meshed with the second gear shaft assembly, and a transmission gear 623 meshed with the intermediate gear and mounted on the rotating shaft 2, wherein one end of the clutch assembly 63 is fixedly connected with the transmission gear 623, and the other end is connected with the rotating shaft 2.

The first gear shaft assembly includes a first optical axis 624, a first slave gear 625 and a second slave gear 626 mounted on the first optical axis 624, the first slave gear 625 meshing with the first gear 621;

the second gear shaft assembly comprises a second optical axis 627, a third slave gear 628 and a fourth slave gear 629 which are arranged on the second optical axis 627, the third slave gear 628 is meshed with the second slave gear 626, the fourth slave gear 629 is meshed with the transmission gear 623, and the gear transmission mechanism has the advantages of high transmission efficiency and good working stability.

Embodiment four: the frame 1 is provided with a second driving element 64 connected with the second gear 52 and a third driving element 65 connected with the rotating shaft 2, and the second driving element and the third driving element respectively adopt servo motors and respectively control the rotation of the second gear and the rotating shaft.

The dam mechanism 8 is including installing spliced pole 81 of diapire under the flourishing charging tray 4 and articulated striker plate 82 of installing on spliced pole 81, be equipped with fifth roller 83 and sixth roller 84 on the striker plate 82, be equipped with on the erection column 73 with striker plate 82 interference complex elastic component 85, the striker plate is being contradicted by the elastic component, is pressed close to the lower terminal surface of discharge gate all the time, when first bump piece and fifth roller touch, the striker plate leaves the discharge gate, can the unloading this moment, and when the second bump piece and sixth roller touch, the striker plate is got back to the discharge gate below again, stops the unloading this moment.

The frame 1 is provided with a support frame 78 at a position below the tray 4, and a first bump 782 corresponding to the fifth roller 83 and a second bump 783 corresponding to the sixth roller 84 are mounted on the support frame 78; the first bump block and the second bump block are all articulated installations, still install a plurality of on the support frame 78 and adjust the first power supply 79 that bumps the piece installation angle with the second, still be equipped with spacing groove 781 on the support frame 78, first bump block and second bump block respectively be equipped with run through spacing groove 781 after with power supply 79 articulated fixed axle 791, first bump block and second bump block all can adjust installation angle to adjust the opening angle of striker plate, the power supply adopts the cylinder as shown in fig. 12, in order to observe spacing groove conveniently in fig. 12, the power supply that the second bumped the piece is not illustrated.

In addition, the second bump block can also adopt a fixed mounting mode to detach the power source, replace the fixed shaft by a bolt and be fixedly mounted on the support frame by a nut.

The high-speed packaging machine comprises a film placing device 91, a packaging bag forming device 92, a longitudinal sealing device 93 and a sealing device 94, and further comprises a charging device, wherein the charging device has all the advantages of the charging device.

In the description of the present utility model, it should be noted that the terms "center", "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art. Furthermore, in the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more.

The skilled person will know: while the utility model has been described in terms of the foregoing embodiments, the inventive concepts are not limited to the utility model, and any modifications that use the inventive concepts are intended to be within the scope of the appended claims.

Claims (13)

1. The utility model provides a high-speed packagine machine's filling device, includes frame (1), pivot (2), swivel mount (3), by flourishing charging tray (4) that pivot (2) drove, a plurality of circumference distributes fill unit (5) and actuating mechanism (6), flourishing charging tray (4) circumference is equipped with a plurality of and fills discharge opening (41) that unit (5) correspond, every be equipped with transition material receiving cup (7) between discharge opening (41) and every fill unit (5), flourishing charging tray (4) below is equipped with and carries out switch control's stock stop mechanism (8) to discharge opening (41), its characterized in that: the material containing disc (4) is provided with an annular disc (71) for installing the transition material receiving cup (7) and a cam mechanism (72) for driving the transition material receiving cup (7) to swing, and the transition material receiving cup (7) is provided with two states of communicating and misplacing the discharge hole (41) and the filling unit (5) when in swinging motion.

2. The filling device of a high-speed packaging machine according to claim 1, wherein: a first bracket (74) for connecting the transition receiving cup (7) and the annular disc (71) is arranged between the transition receiving cup and the annular disc, and the first bracket (74) is hinged with the annular disc; the first bracket (74) is driven by the annular disc (71) to rotate around the cam mechanism (72) and is in rolling fit with the cam mechanism (72).

3. The filling device of a high-speed packaging machine according to claim 2, wherein: the cam mechanism (72) comprises a first wheel disc (721) fixedly connected with the frame (1) and a first cam groove (722) arranged on one side surface of the first wheel disc (721), and a third roller (741) which is installed in a hinged mode and in rolling fit in the first cam groove (722) is arranged on the first bracket (74).

4. A filling device of a high-speed packaging machine according to claim 3, wherein: the annular disc (71) is fixedly connected below the material containing disc (4); the cam mechanism (72) is positioned below the annular disc (71) and is fixedly connected with the frame; the annular disc is provided with a plurality of circumferentially arranged mounting columns (73) for the first support to be hinged, and the transition receiving cup (7) is provided with a first action of aligning the discharge hole when being driven to swing outwards by a cam mechanism (72) and a second action of dislocating with the discharge hole when being driven to swing inwards.

5. A filling device of a high-speed packaging machine according to claim 3, wherein: the annular disc (71) is fixedly arranged on the rotating frame (3), and the cam mechanism (72) is positioned above the annular disc (71) and is fixedly connected with the frame; the transition receiving cup (7) is provided with a first action of aligning the discharge hole when being driven by the cam mechanism (72) to swing inwards and a second action of being staggered with the discharge hole when being driven by the cam mechanism to swing outwards.

6. The filling device of a high-speed packaging machine according to claim 1, wherein: the filling unit (5) comprises lifting shafts (51), second gears (52) connected with all the lifting shafts (51) and filling cups (53) arranged at the top ends of the lifting shafts (51), a rotating cam (11) for driving the lifting shafts (51) to rotate and a lifting cam (12) for driving the lifting shafts (51) to move up and down are arranged on the frame (1), a first track groove (121) is further formed in the outer wall of the lifting cam (12), a second track groove (111) is formed in the rotating cam (11), and a first roller (511) in rolling fit with the first track groove (121) and a second roller (512) in rolling fit with the second track groove (111) are arranged at the bottom end of the lifting shaft (51).

7. The filling device of a high-speed packaging machine according to claim 6, wherein: the driving mechanism (6) comprises a first driving element (61) and a transmission assembly (62) for driving the filling unit (5) and the rotating shaft (2) to rotate, a clutch assembly (63) for connecting the transmission assembly (62) and the rotating shaft (2) is arranged between the transmission assembly (62) and the rotating shaft (2), and the transmission assembly (62) comprises a first gear (621) rotatably arranged on the frame (1) and meshed with the second gear (52);

the transmission assembly (62) further comprises a first gear shaft assembly meshed with the first gear (621), a second gear shaft assembly meshed with the first gear shaft assembly, an intermediate gear (622) meshed with the second gear shaft assembly and a transmission gear (623) meshed with the intermediate gear and mounted on the rotating shaft (2), and one end of the clutch assembly (63) is fixedly connected with the transmission gear (623) while the other end is connected with the rotating shaft (2).

8. The filling device of a high-speed packaging machine according to claim 7, wherein: the first gear shaft assembly includes a first optical axis (624), and a first slave gear (625) and a second slave gear (626) mounted on the first optical axis (624), the first slave gear (625) being in mesh with the first gear (621);

the second gear shaft assembly includes a second optical axis (627) and third (628) and fourth (629) slave gears mounted on the second optical axis (627), the third slave gear (628) meshing with the second slave gear (626), the fourth slave gear (629) meshing with the transfer gear (623).

9. The filling device of a high-speed packaging machine according to claim 7, wherein: the clutch assembly (63) adopts an electromagnetic clutch;

the electromagnetic clutch comprises an upper clutch piece (631) and a lower clutch piece (632), wherein a convex block (633) is arranged on the lower surface of the upper clutch piece (631), and a groove (634) matched with the convex block (633) is arranged on the upper surface of the lower clutch piece (632);

when the number of the convex blocks is larger than one, the sizes of the convex blocks are different, and each groove is respectively matched with the different convex blocks.

10. The filling device of a high-speed packaging machine according to claim 7, wherein: the automatic braking device is characterized in that a bracket (17) arranged on the frame is arranged below the rotating shaft (2), a lower brake disc (18) is arranged on the bracket (17), an upper brake disc (19) corresponding to the lower brake disc (18) is arranged at the lower end of the rotating shaft (2), and the upper brake disc is in a first state of being separated from the lower brake disc after the clutch assembly is closed and in a second state of being contacted with the lower brake disc after the clutch assembly is separated.

11. The filling device of a high-speed packaging machine according to claim 6, wherein: the frame (1) is provided with a second driving element (64) connected with the second gear (52) and a third driving element (65) connected with the rotating shaft (2).

12. The filling device of a high-speed packaging machine according to claim 4, wherein: the material blocking mechanism (8) comprises a connecting column (81) arranged on the lower bottom wall of the material containing disc (4) and a material blocking plate (82) hinged on the connecting column (81), a fifth roller (83) and a sixth roller (84) are arranged on the material blocking plate (82), an elastic piece (85) in interference fit with the material blocking plate (82) is arranged on the mounting column (73), a supporting frame (78) is arranged on the frame (1) at a position below the Cheng Liao disc (4), and a first bump block (782) corresponding to the fifth roller (83) and a second bump block (783) corresponding to the sixth roller (84) are arranged on the supporting frame (78); the first bump block and the second bump block are all hinged, a plurality of power sources (79) for adjusting the installation angles of the first bump block and the second bump block are further installed on the support frame (78), limit grooves (781) are further formed in the support frame (78), and fixed shafts (791) penetrating through the limit grooves (781) and hinged to the power sources (79) are respectively arranged on the first bump block and the second bump block.

13. The utility model provides a high-speed packagine machine, includes puts membrane device (91), wrapping bag forming device (92), indulges sealing device (93) and closing device (94), its characterized in that: further comprising a charging device according to any one of claims 1-12.