CN210616602U - Membrane supporting and blanking device applied to thin film slicing machine - Google Patents

Abstract

The utility model relates to a be applied to film slicer's diaphragm and support doffer, including two backup pads, two backup pads are connected in the frame, be provided with between two backup pads and carry the thing board, the one side that two backup pads carried on the back mutually is connected with a connecting plate respectively, the top of connecting plate is provided with a material supporting plate, the elasticity hinged joint is passed through with the upper portion of connecting plate in the lower part of material supporting plate, the upper end of two material supporting plate is bent in opposite directions respectively and is formed material supporting portion, interval between two material supporting portion is less than the width of film, two material supporting portion upper surfaces flush, arbitrary material supporting plate sub-unit connection has the swing arm, arbitrary swing arm free end is connected with a driving lever that is on a parallel with the hinge and extends to the shutdown mechanism direction, the one end that the driving lever is close shutdown mechanism is located the upper reaches of backup pad and material supporting plate, be located and be provided with the. The utility model discloses can realize the support to the film and to piling up of diaphragm.

Description

Membrane supporting and blanking device applied to thin film slicing machine

The technical field is as follows:

the utility model belongs to the technical field of the film section, concretely relates to be applied to film slicer's diaphragm and support doffer.

Background art:

the film slicing machine generally comprises a rack, a front conveying mechanism for conveying a film, a cutting mechanism for cutting the film, and a rear transfer mechanism for transferring the cut film, wherein the cutting mechanism is arranged between the front conveying mechanism and the rear transfer mechanism, so that the cut film must be transferred in time in order to avoid interference between the film and the film, and a position is vacated for the film to move to a cutting station, so that continuous production is realized.

The back end shifts the mechanism and adopts sucking disc arm, conveyer belt etc. usually, the sucking disc arm drops into greatly, and is with high costs, and the energy consumption is high, and a lot of enterprises are difficult to bear, and traditional conveyer belt is because of its cost is lower, the result of use can reach the requirement, consequently as back end shifts the mechanism, and the conveyer belt more receives the favor of enterprise, but the conveyer belt carries the diaphragm backward to be the monolithic formula and carries, can't superpose the diaphragm, needs the manual work to superpose and increase the cost of labor.

The film is in a continuous state before being cut, and is referred to as a film in the invention, and is referred to as a film after being cut.

The utility model has the following contents:

the utility model discloses the technical problem that will solve is: the film supporting and blanking device applied to the film slicing machine can effectively support the film and can stack the film.

In order to solve the technical problem, the utility model discloses a technical scheme is: a membrane supporting and blanking device applied to a film slicer comprises two parallel and oppositely arranged supporting plates, wherein the two supporting plates are connected to a machine frame at the downstream of a slicing mechanism of the slicer and are respectively arranged at two sides of a film moving path, any supporting plate is parallel to the film moving path, a space for containing materials is formed between the two supporting plates, a carrying plate for carrying a membrane is arranged between the two supporting plates, one surface of each of the two supporting plates, which is opposite to the other surface, is respectively connected with a connecting plate parallel to the film conveying direction, a material supporting plate is arranged above the connecting plate, the lower part of the material supporting plate is connected with the upper part of the connecting plate through an elastic hinge, the upper ends of the two material supporting plates are higher than the supporting plates, the upper ends of the two material supporting plates are respectively bent in opposite directions to form material supporting parts, the distance between the two material supporting parts is smaller than the width, the swing arms are located above the elastic hinge, the free end of any swing arm is connected with a shifting lever which is parallel to the hinge and extends towards the direction of the cutting mechanism, one end of the shifting lever, close to the cutting mechanism, is located at the upstream of the supporting plate and the material supporting plate, a pressing rod is arranged right above the shifting lever located at the upstream of the supporting plate and the material supporting plate, and two ends of the pressing rod are connected to the moving blade of the cutting mechanism through supporting plates.

Preferably, the upstream ends of the two material supporting parts are provided with guide parts extending upstream, and the upstream ends of the guide parts are lower than the material supporting parts.

As a preferred scheme, a sleeve is rotatably sleeved on the deflector rod positioned at the upstream of the support plate and the retainer plate, and the axial direction of the sleeve is vertical to the axial direction of the compression bar.

As a preferred scheme, the upper reaches of carrying the thing board are provided with the drive roll of rotation connection in the frame, the low reaches of carrying the thing board are provided with the driven roll of rotation connection in the frame, drive roll and driven roll are parallel to each other and all are on a parallel with carry the thing board, the axial perpendicular to film moving direction of drive roll, be provided with the belt groove along its axial equipartition on the outer periphery of drive roll, be provided with the belt groove on the outer periphery of driven roll equally, around being equipped with many belts on drive roll and the driven roll, many belts one-to-one ground inlays the belt inslot of establishing between two backup pads, the belt that is located the upper strata and carry thing board upper surface laminating, be connected with the drive arrangement that can drive the drive roll pivoted in the frame.

As a preferred scheme, the frame of shutdown mechanism low reaches includes the table surface and the many vaulting poles of support under table surface that a level set up, and each vaulting pole upper end and table surface fixed connection, each vaulting pole lower extreme fixed connection are on the slicer or subaerial, set up two rectangular shape holes of arranging along film width direction on the table surface, the major axis perpendicular to film moving direction in arbitrary rectangular shape hole, two rectangular shape hole symmetry sets up the both sides at the film center pin, two the backup pad is located the table surface upper surface and with two rectangular shape hole one-to-one, arbitrary backup pad is along fixedly connected with connecting portion under one side of another backup pad dorsad, is provided with the locking bolt who passes long rectangular shape hole on the connecting portion, table surface below is provided with the nut with locking bolt threaded connection.

As a preferred scheme, the object carrying plate is a part of a working table, a driving roller mounting hole located at the upstream of the supporting plate and a driven roller mounting hole located at the downstream of the supporting plate are formed in the working table, the length directions of the driving roller mounting hole and the driven roller mounting hole are perpendicular to the moving direction of the film, two ends of the driving roller are fixedly connected with the working table through a connecting seat respectively, two ends of the driven roller are fixedly connected with the working table through a connecting seat respectively, the connecting seat is fixedly connected to the bottom surface of the working table, and the driving device is fixedly connected to the connecting seat for connecting the driving roller.

The utility model has the advantages that: support the film through two material supporting plates, the messenger is located the film of shutdown mechanism upper and lower reaches and is in the leveling condition, cut off the precision in order to improve, set up swing arm and driving lever on two material supporting plates, and set up the depression bar that corresponds with the driving lever on moving the blade, the action of cutting off through moving the blade drives depression bar oppression driving lever and swing arm, make two material supporting plate swing in the opposite direction, interval between two material supporting portions increases to being greater than the film width, cause the diaphragm both ends to break away from material supporting portion and fall down naturally on the year thing board between two backup pads, every diaphragm all falls down naturally through above-mentioned mode on the same position of carrying the thing board, thereby make each diaphragm pile up in proper order, reach the utility model discloses the technical objective that will obtain.

The utility model discloses further set up the guide part of up end slope at holding in the palm material portion upper reaches end to the film removes the material portion of holding in the palm smoothly.

The utility model discloses further cup joint the sleeve pipe on the driving lever, adopt pipe and depression bar roll butt, reduce the wearing and tearing of depression bar, increase of service life reduces the work noise simultaneously.

The utility model discloses further through carrying the thing board upper and lower trip to set up drive roll and driven roller, and around establishing many belts between drive roll and driven roller, and make the upper belt be located and carry the thing board, like this, when the diaphragm whereabouts, can pile up on many belts, then can carry backup pad low reaches, the workman of being convenient for takes with the diaphragm through the removal of belt.

The utility model discloses further regard as the partly thing board that carries of table surface, simplify the structure.

Description of the drawings:

the following detailed description of embodiments of the present invention is provided with reference to the accompanying drawings, in which:

fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a left side view of FIG. 1;

FIG. 4 is a schematic view of the membrane support blanker of FIG. 3 when the film is cut;

fig. 5 is a sectional view a-a in fig. 1.

In fig. 1 to 5: 1. the cutting device comprises a supporting plate, 2, a cutting mechanism, 2-1, a movable blade, 2-2, a fixed blade, 3, a frame, 3-1, a workbench surface, 3-2, a supporting rod, 4, a carrying plate, 5, a connecting plate, 6, a carrying plate, 6-1, a carrying part, 6-2, a guide part, 7, an elastic hinge, 8, a swinging arm, 9, a deflector rod, 10, a pressing rod, 11, a supporting plate, 12, a sleeve, 13, a driving roller, 14, a driven roller, 15, a belt groove, 16, a belt, 17, a driving device, 18, a strip-shaped hole, 19, a connecting part, 20, a locking bolt, 21, a nut, 22, a driving roller mounting hole, 23, a driven roller mounting hole, 24, a connecting seat, 25, a machine body, 26, a connecting rod, 27, an eccentric wheel, 28 and a cutting motor.

The specific implementation mode is as follows:

the following describes in detail a specific embodiment of the present invention with reference to the drawings.

As shown in figures 1-5, the membrane supporting and blanking device applied to the thin film slicer comprises two parallel and oppositely arranged support plates 1, wherein the two support plates 1 are connected to a frame 3 at the downstream of a slicing mechanism 2 of the slicer and are respectively arranged at two sides of a thin film moving path, any one support plate 1 is parallel to the thin film moving path, a space for containing materials is formed between the two support plates 1, a carrying plate 4 for carrying the membrane is arranged between the two support plates 1, one surface of each of the two support plates 1, which is opposite to the other surface, is respectively connected with a connecting plate 5 parallel to the thin film conveying direction, a material supporting plate 6 is arranged above the connecting plate 5, the lower part of the material supporting plate 6 is connected with the upper part of the connecting plate 5 through an elastic hinge 7, the elastic hinge 7 drives the material supporting plate 6 to be in a vertical state under the condition of not being affected by external force, the upper ends of the two material supporting plates 6 are, the distance between the two material supporting parts 6-1 is smaller than the width of the film, the film is supported by the two material supporting parts 6-1 after passing through the cutting mechanism 2, the upper surfaces of the two material supporting parts 6-1 are flush with the bottom surface of the film at the upstream side of the cutting mechanism 2, the cutting precision is prevented from being reduced due to the head part of the film drooping, the upstream ends of the two material supporting parts 6-1 are provided with guide parts 6-2 extending upstream, the upstream ends of the guide parts 6-2 are lower than the material supporting parts 6-1, so that the film can smoothly pass through the cutting mechanism 2 and transition to the material supporting parts 6-1, the lower part of any material supporting plate 6 is connected with a swing arm 8 extending in the direction far away from the film, the swing arm 8 is positioned above the hinge shaft of the elastic hinge 7, the free end of any swing arm 8 is connected with a deflector rod 9 which is parallel to the, one end of the deflector rod 9 close to the cutting mechanism 2 is positioned at the upstream of the supporting plate 1 and the material supporting plate 6, a pressure lever 10 is arranged right above the deflector rod 9 positioned at the upstream of the supporting plate 1 and the material supporting plate 6, and two ends of the pressure lever 10 are connected to the movable blade 2-1 of the cutting mechanism 2 through a supporting plate 11.

As shown in FIG. 1, the left part of the cutting mechanism 2 is a body 25 of the slicer, a fixed blade 2-2 of the cutting mechanism 2 is fixedly connected to the body 25, a movable blade 2-1 of the cutting mechanism 2 is connected to the fixed blade 2-2 in a vertically sliding manner and is in transmission connection with a cutting motor 28 through a connecting rod 26 and an eccentric 27, the upper end of the connecting rod 26 is rotatably connected to the side surface of the movable blade through a bearing, the lower end 26 of the connecting rod is connected to the eccentric 27, the eccentric 27 is sleeved on an output shaft of the cutting motor 28, the cutting motor 28 drives the eccentric 27 to rotate, the eccentric 27 drives the lower end of the connecting rod 26 to revolve, and the lower end of the connecting rod 26 revolves to drive the upper end of.

Although the upper surfaces of the two material supporting parts 6-1 are flush with the bottom surface of the film on the upstream side of the cutting mechanism 2 in the embodiment, in the specific production, the upper surfaces of the two material supporting parts 6-1 are higher or lower than the bottom surface of the film on the upstream side of the cutting mechanism 2, so that the stacking of the film sheets can be realized, and the arrangement of the upper surfaces of the two material supporting parts 6-1 to be flush with the bottom surface of the film on the upstream side of the cutting mechanism 2 is only a preferable scheme, so that the cutting precision can be improved better.

As shown in figure 1, a sleeve 12 is rotatably sleeved on the deflector rod 9 positioned on the upstream of the support plate 1 and the material supporting plate 6, the axial direction of the sleeve 12 is vertical to the axial direction of the pressing rod 10, and the sleeve 12 can rotate when being pressed down by the pressing rod 10, so that the abrasion formed by the direct sliding friction between the pressing rod 10 and the deflector rod 9 is reduced, the working noise is reduced, and the service life of the structure is prolonged.

The machine frame 3 at the downstream of the cutting mechanism 2 comprises a workbench surface 3-1 arranged horizontally and a plurality of support rods 3-2 supported below the workbench surface 3-1, the upper end of each support rod 3-2 is fixedly connected with the workbench surface 3-1, the lower end of each support rod 3-2 is fixedly connected with the slicer body 25 or the ground, two strip-shaped holes 18 arranged along the width direction of the film are arranged on the workbench surface 3-1, the long axis of any strip-shaped hole 18 is vertical to the moving direction of the film, the two strip-shaped holes 18 are symmetrically arranged at the two sides of the central axis of the film, two support plates 1 are positioned on the upper surface of the workbench surface 3-1 and correspond to the two strip-shaped holes 18 one by one, one side of any support plate 1 back to the other support plate 1 is fixedly connected with a connecting part 19 along the lower edge, a locking bolt 20 penetrating through the strip, a nut 21 in threaded connection with the locking bolt 20 is arranged below the working table surface 3-1.

In this embodiment, the carrier plate 4 is a part of the working table 3-1, as shown in fig. 5, the carrier plate 4 refers to a part of the working table 3-1 located between two supporting plates 1, the working table 3-1 is provided with a driving roller mounting hole 22 located at the upstream of the supporting plate 1 and a driven roller mounting hole 23 located at the downstream of the supporting plate 1, the length directions of the driving roller mounting hole 22 and the driven roller mounting hole 23 are both perpendicular to the moving direction of the film, the upstream of the carrier plate 4 is provided with a driving roller 13 rotatably connected to the frame 3, the downstream of the carrier plate 4 is provided with a driven roller 14 rotatably connected to the frame 3, the driving roller 13 and the driven roller 14 are both parallel to each other and to the carrier plate 4, the axial direction of the driving roller 13 is perpendicular to the moving direction of the film, the outer circumferential surface of the driving roller 13 is provided with belt grooves 15 uniformly distributed along the axial direction, the outer circumferential surface of the driven roller 14 is also provided, a plurality of belts 16 are wound on the driving roller 13 and the driven roller 14, the plurality of belts 16 are correspondingly embedded in the belt grooves 15 between the two supporting plates one by one, the belt 16 positioned on the upper layer is attached to the upper surface of the object carrying plate 4, two ends of the driving roller 13 are respectively and fixedly connected with the working table top 3-1 through a connecting seat 24, two ends of the driven roller 14 are also respectively and fixedly connected with the working table top 3-1 through a connecting seat 24, the connecting seat 24 belongs to one part of the frame 3 and is fixedly connected on the bottom surface of the working table top 3-1, the driving roller 13 corresponds to the driving roller mounting hole 22, the upper edge of the driving roller 13 passes through the driving roller mounting hole 22, the driven roller 14 corresponds to the driven roller mounting hole 23, the upper edge of the driven roller mounting hole 23 passes through the driven roller mounting hole 23, one of the connecting seats 24 for connecting the driving roller 13 is fixedly connected with a driving device 17, and the driving, the driving roller 13 is driven to rotate, and in the embodiment, the driving device 17 is a motor.

The utility model discloses the theory of operation is: as shown in fig. 1-5, when the movable blade 2-1 of the cutting mechanism is located at the upper end, the film is in a moving state, the pressing rod 10 does not apply pressure to the sleeve 12, both the material supporting plates 6 are in a vertical state, the film can pass through the gap between the movable blade 2-1 and the fixed blade 2-2 from one side of the machine body 25 and move to the material supporting part 6-1 and is supported by the material supporting part 6-1, when the length of the film located at the downstream side of the movable blade 2-1 meets the requirement, the film stops moving, the cutting motor 28 starts to drive the eccentric wheel 27 to rotate, the eccentric wheel 27 drives the movable blade 2-1 to move downwards through the connecting rod 26 to cut the film, in the moving-downwards process of the movable blade 2-1, the pressing rod 10 synchronously downwards applies pressure to the sleeve 12, the sleeve 12 applies force to drive the deflector rod 9 and the swing arm 8 to swing, the, the two material supporting plates 6 swing in opposite directions, so that the distance between the two material supporting parts 6-1 is enlarged, the membrane does not move along the width direction of the film because the two material supporting plates 6 swing synchronously, and when the distance between the two material supporting parts 6-1 is larger than the width of the film, the membrane falls off from the two material supporting parts 6-1 and vertically falls on the carrying plate 4 between the two supporting plates 1.

After the movable blade 2-1 is reset upwards, the two material supporting plates 6 are reset under the action of the elastic hinge 7, and the two material supporting parts 6-1 support the film again.

In this embodiment, carry and be provided with belt 16 on the thing board 4, therefore the diaphragm falls the back perpendicularly, falls on many belts 16 in fact, and these many belts 16 have formed a conveyer belt, and after the diaphragm quantity that piles up reached the requirement, can start drive arrangement 17, and drive arrangement 17 drives drive roll 13 and rotates, and drive roll 13 drives many belts 16 synchronous rotation, and many belts 16 can carry the diaphragm to 1 low reaches of backup pad to the workman takes.

If the driving roller 13 and the driven roller 14 are not provided, a stack of film webs can also be realized, which film webs fall directly onto the carrier plate 4.

The above embodiments are merely illustrative of the principles and effects of the present invention, and some embodiments in use, and are not intended to limit the invention; it should be noted that, for those skilled in the art, various changes and modifications can be made without departing from the inventive concept of the present invention, and these changes and modifications belong to the protection scope of the present invention.

Claims (6)

1. Be applied to diaphragm support doffer of film slicer, which is characterized in that, including two parallel backup pads (1) of relative setting, two backup pads (1) are connected on frame (3) of slicer shutdown mechanism (2) low reaches, and set up respectively in the both sides of film motion route, arbitrary backup pad (1) is on a parallel with film motion route, form the space that can hold the material between two backup pads (1), be provided with between two backup pads (1) and carry thing board (4) that bear the weight of the diaphragm, the one side that two backup pads (1) back of the body is mutually connected with a connecting plate (5) that is on a parallel with film direction of delivery respectively, the top of connecting plate (5) is provided with a flitch (6) that holds in the palm, the lower part of flitch (6) is connected through elasticity hinge (7) with the upper portion of connecting plate (5), the upper end of two, the upper ends of the two material supporting plates (6) are bent oppositely to form material supporting portions (6-1), the distance between the two material supporting portions (6-1) is smaller than the width of a film, the upper surfaces of the two material supporting portions (6-1) are flush, the lower portion of any material supporting plate (6) is connected with a swing arm (8) extending in the direction far away from the film, the swing arm (8) is located above an elastic hinge (7), the free end of any swing arm (8) is connected with a shift lever (9) which is parallel to the hinge and extends in the direction of the cutting mechanism (2), one end, close to the cutting mechanism (2), of the shift lever (9) is located at the upper portion of the supporting plate (1) and the upper portion of the material supporting plate (6), a press rod (10) is arranged right above the shift lever (9) located at the upper portions of the supporting plate (1) and the material supporting plate (6), and two ends of the press rod (10) are connected to a moving blade.

2. The film supporting and blanking device applied to the film slicer as claimed in claim 1, wherein the upstream ends of the two material supporting parts (6-1) are provided with guide parts (6-2) extending upstream, and the upstream ends of the guide parts 6-2 are lower than the material supporting parts (6-1).

3. The membrane supporting and blanking device applied to the film slicer as claimed in claim 1, wherein a sleeve (12) is rotatably sleeved on the deflector rod (9) located at the upstream of the supporting plate (1) and the retainer plate (6), and the axial direction of the sleeve (12) is perpendicular to the axial direction of the pressing rod (10).

4. The film supporting and blanking device applied to the film slicer as claimed in claim 3, wherein a driving roller (13) rotatably connected to the frame (3) is disposed at the upstream of the loading plate (4), a driven roller (14) rotatably connected to the frame (3) is disposed at the downstream of the loading plate (4), the driving roller (13) and the driven roller (14) are parallel to each other and are both parallel to the loading plate (4), the axial direction of the driving roller (13) is perpendicular to the moving direction of the film, belt grooves (15) uniformly distributed along the axial direction of the driving roller (13) are disposed on the outer circumferential surface of the driving roller (13), belt grooves (15) are also disposed on the outer circumferential surface of the driven roller (14), a plurality of belts (16) are wound on the driving roller (13) and the driven roller (14), the plurality of belts (16) are embedded in the belt grooves (15) between the two supporting plates in a one-to-one correspondence manner, and the belt (16) located at the upper layer is attached to the upper surface of the, and the frame (3) is connected with a driving device (17) capable of driving the driving roller (13) to rotate.

5. The film supporting and blanking device applied to the film slicer as claimed in claim 4, wherein the frame (3) at the downstream of the cutting mechanism (2) comprises a table top (3-1) horizontally arranged and a plurality of support rods (3-2) supported below the table top (3-1), the upper end of each support rod (3-2) is fixedly connected with the table top (3-1), the lower end of each support rod (3-2) is fixedly connected on the slicer or the ground, the table top (3-1) is provided with two strip-shaped holes (18) arranged along the width direction of the film, the long axis of any strip-shaped hole (18) is perpendicular to the moving direction of the film, the two strip-shaped holes (18) are symmetrically arranged at the two sides of the central axis of the film, the two support plates (1) are positioned on the upper surface of the table top (3-1) and correspond to the two strip-shaped holes (18) one by one, one side of any supporting plate (1), back to the other supporting plate (1), is fixedly connected with a connecting part (19) along the lower edge, a locking bolt (20) penetrating through the long-strip-shaped hole (18) is arranged on the connecting part (19), and a nut (21) in threaded connection with the locking bolt (20) is arranged below the working table top (3-1).

6. The film supporting and blanking device applied to the film slicer as claimed in claim 5, wherein the loading plate (4) is a part of a working table (3-1), the working table (3-1) is provided with a driving roller mounting hole (22) located at the upstream of the supporting plate (1) and a driven roller mounting hole (23) located at the downstream of the supporting plate (1), the length directions of the driving roller mounting hole (22) and the driven roller mounting hole (23) are both perpendicular to the moving direction of the film, two ends of the driving roller (13) are respectively and fixedly connected with the working table (3-1) through a connecting seat (24), two ends of the driven roller (14) are respectively and fixedly connected with the working table (3-1) through a connecting seat (24), the connecting seat (24) is fixedly connected with the bottom surface of the working table (3-1), the drive device (17) is fixedly connected to a connecting base (24) for connecting the drive roll (13).

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