CN222181291U - Static elimination device for slitting machine - Google Patents

Abstract

The utility model relates to the technical field of printing and packaging equipment, specifically a static elimination device for a slitting machine; it comprises a main machine and a roller shaft installed on the main machine, a static elimination device is installed above the main machine, the static elimination device is installed above the roller shaft, and an adjustment structure for adjusting the height of the static elimination device is installed on the main machine; the adjustment structure comprises a fixed plate fixedly connected to both sides of the main machine, a top plate is slidably connected to the fixed plate, the static elimination device is fixedly installed on the top plate, a connecting plate is fixedly connected between the two fixed plates, a control rod is slidably connected to a clamping shell, one end of a push plate is rotatably connected to the clamping shell, a push groove is provided on the push plate, and a sliding shaft slidably connected to the push groove is fixedly connected to the control rod; the problem that the existing static elimination device is inconvenient to adjust the distance between the static elimination device and the guide roller is effectively solved; the utility model is easy to use and can finely control the distance between the static elimination device and the guide roller.

Description

Static electricity eliminating device of splitting machine

Technical Field

The utility model relates to the technical field of printing and packaging equipment, in particular to a static electricity eliminating device of a splitting machine.

Background

As is known, a slitting machine is a high-efficiency, high-precision processing device. The method is mainly applied to various industries. The slitting machine is a mechanical device for dividing wide paper, mica tape or film into a plurality of narrow materials, and is commonly used for paper making machines, wire and cable mica tapes and printing and packaging machines. The slitting machine is mainly applied to slitting of non-woven fabrics, mica tapes, paper, insulating materials and various film materials and narrow-band slitting, and particularly, the slitting machine is needed when burrs or unnecessary side edges of the paper, film and other materials need to be cut in the production process.

In the prior art, when a cutting machine cuts materials such as films and the like, static electricity is excessively high in the cutting process, a large amount of static electricity is coupled in the product, and in the cutting process of the cutting machine, the problem that the films are easy to adsorb dust due to static electricity is solved by adding the static electricity eliminating device.

The prior art has the following defects or problems:

When the static eliminating device is installed, the discharge electrode is required to be installed above the film-feeding guide roller of the splitting machine in parallel and is 0.5-1.0CM away from the guide roller, so that the releasing effect of negatively charged electronic groups is ensured, when the static eliminating device is required to be used, the distance between the static eliminating device and the guide roller is required to be adjusted to control the static eliminating effect, and the existing static eliminating device is inconvenient to adjust the distance between the static eliminating device and the guide roller.

Accordingly, the present utility model provides a static electricity eliminating device for a slitter to solve the problem.

Disclosure of utility model

Aiming at the situation, in order to overcome the defects of the prior art, the utility model provides the static electricity eliminating device of the dividing and cutting machine, which effectively solves the problems that when the static electricity eliminating device is installed, a discharge electrode is required to be installed above a film-feeding guide roller of the dividing and cutting machine in parallel and is away from the guide roller by 0.5 CM to 1.0CM so as to ensure the releasing effect of negatively charged electron groups, when the static electricity eliminating device is required to be used, the distance between the static electricity eliminating device and the guide roller is required to be adjusted to control the static electricity eliminating effect, and the existing static electricity eliminating device is inconvenient to adjust the distance between the static electricity eliminating device and the guide roller.

The utility model relates to a static electricity eliminating device of a splitting machine, which comprises a main machine and a roll shaft arranged on the main machine, wherein the static electricity eliminating device is arranged above the main machine, the static electricity eliminating device is arranged above the roll shaft, and an adjusting structure for adjusting the height of the static electricity eliminating device is arranged on the main machine;

The utility model provides a static electricity eliminating device, including the host computer, the regulation structure includes fixed connection the fixed plate of host computer both sides, sliding connection has the roof on the fixed plate, the roof with install compression spring between the fixed plate, static electricity eliminating device fixed mounting is in on the roof, roof installation fixed connection is in static electricity eliminating device's both ends, two fixedly connected with connecting plate between the fixed plate, two fixed plate upper end rotates to be connected in the both sides that compress tightly the casing, sliding connection has the control rod on compressing tightly the casing, it is connected with the one end of pushing plate to compress tightly to rotate on the casing, the pushing plate is used for promoting static electricity eliminating device to keeping away from compress tightly the direction of casing and promotes, set up the pushing groove on the pushing plate, fixedly connected with on the control rod with pushing groove sliding connection's sliding shaft, be connected with the pulling structure that is used for pulling the control rod on the control rod, compress tightly the casing with be provided with the auto-lock structure between the fixed plate.

Preferably, the pulling structure comprises a threaded shaft for fixing the connector at one end of the control rod, and an adjusting nut is rotatably connected to one end of the compression shell and is in threaded connection with the threaded shaft.

Preferably, one end of the pushing plate, which is close to the static electricity eliminating device, is rotatably connected with a pushing wheel.

Preferably, the self-locking structure comprises a locking rod which is slidably connected to one side of the pressing shell, at least one locking tooth is fixedly connected to the locking rod, the section of the locking tooth is triangular, a self-locking spring is connected between the locking rod and the pressing shell, and a locking groove matched with the locking tooth is formed in the pressing shell.

Preferably, the locking teeth are provided in two.

Preferably, the fixed plate is all sliding connection has the locking ring cover, the locking ring cover sets up to one side open-ended U-shaped, the roof deviates from one side fixedly connected with a plurality of spacing teeth of static electricity eliminator, the locking ring is sheathe in seted up a plurality of with spacing tooth matched with spacing groove, locking ring cover one side with be connected with the pulling spring between the fixed plate, locking ring cover opposite side is provided with the unblock structure.

Preferably, the unlocking structure comprises an unlocking disc rotatably connected to the connecting plate, two symmetrically arranged pulling shafts are fixedly connected to the unlocking disc, a pulling connecting rod is connected between the pulling shafts and the locking ring sleeve, a semicircular control groove is formed in the connecting plate, and a matching shaft matched with the control groove is fixedly connected to the unlocking disc.

Preferably, a cleaning brush is fixedly connected below the connecting plate.

The beneficial effects of the utility model are as follows:

The utility model aims at improving the existing static eliminating device of a dividing and cutting machine, solves the problems that when the static eliminating device is installed, the discharging electrode is required to be installed above a film-feeding guide roller of the dividing and cutting machine in parallel to be 0.5-1.0CM away from the guide roller so as to ensure the releasing effect of a negatively charged electronic group, when the static eliminating device is required to be used, the distance between the static eliminating device and the guide roller is required to be adjusted to control the static eliminating effect, the existing static eliminating device is inconvenient to adjust the distance between the static eliminating device and the guide roller, and further cleans the product to further clean the scraps and dust attached to a film by adding a cleaning brush.

Drawings

FIG. 1 is a schematic view of the overall installation of the present utility model;

FIG. 2 is a schematic view of the compression housing of the present utility model in use;

FIG. 3 is a schematic view of the mounting position of the pusher plate of the present utility model;

FIG. 4 is an enlarged schematic view of a portion of FIG. 3A according to the present utility model;

FIG. 5 shows the present utility model a schematic cross-sectional view of the top plate;

FIG. 6 is an enlarged partial schematic view of the location of the locking slot of the present utility model;

FIG. 7 is a schematic diagram of an unlock disc installation location of the present utility model;

FIG. 8 is a schematic diagram of the mounting position of the control slot of the present utility model;

1. A host; 2, a roll shaft, 3, a static eliminator, 4, a fixed plate, 5, a top plate, 6, a compression spring, 7, a connecting plate, 8, a compression shell, 9, a control rod, 10, a pushing plate, 11, a pushing groove, 12, a sliding shaft, 13, a threaded shaft, 14, an adjusting nut, 15, a pushing wheel, 16, a locking rod, 17, a locking tooth, 18, a self-locking spring, 19, a locking groove, 20, a locking ring sleeve, 21, a limiting tooth, 22, a limiting groove, 23, a pulling spring, 24, an unlocking disc, 25, a pulling shaft, 26, a pulling connecting rod, 27, a control groove, 28, a matching shaft, 29 and cleaning a hairbrush.

Detailed Description

The foregoing and other features, aspects and advantages of the present utility model will become more apparent from the following detailed description of the embodiments with reference to the accompanying drawings, 1-8. The following embodiments are described in detail with reference to the drawings.

In the description of the present utility model, it should be understood that the terms "upper," "middle," "outer," "inner," and the like indicate an orientation or a positional relationship, and are merely for convenience of describing the present utility model and simplifying the description, but do not indicate or imply that the components or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Exemplary embodiments of the present utility model will be described below with reference to the accompanying drawings.

Referring to fig. 1 to 5, a static electricity eliminating device 3 of a splitting machine includes a main machine 1 and a roll shaft 2 mounted on the main machine 1, the static electricity eliminating device 3 is mounted above the roll shaft 2, and an adjusting structure for adjusting the height of the static electricity eliminating device 3 is mounted on the main machine 1;

The adjusting structure comprises fixed plates 4 fixedly connected to two sides of a host machine 1, a top plate 5 is connected to the fixed plates 4 in a sliding mode, a compression spring 6 is installed between the top plate 5 and the fixed plates 4, the top plate 5 is pushed to a direction away from a roll shaft 2 under the action of the compression spring 6 in an initial state, a static eliminating device 3 is fixedly installed on the top plate 5, the top plate 5 is fixedly connected to two ends of the static eliminating device 3, a connecting plate 7 is fixedly connected between the two fixed plates 4, the upper ends of the two fixed plates 4 are rotationally connected to two sides of a compression shell 8, a control rod 9 is connected to the compression shell 8 in a sliding mode, one end of a pushing plate 10 is rotationally connected to the compression shell 8, the pushing plate 10 is used for pushing the static eliminating device 3 to a direction away from the compression shell 8, a pushing groove 11 is formed in the pushing plate 10, a sliding shaft 12 fixedly connected to the pushing groove 11 is connected to the control rod 9, a pulling structure for pulling the control rod 9 is connected to the control rod 9, the pulling structure comprises a threaded shaft 13 fixedly connected to one end of the control rod 9, an adjusting nut 14 is rotationally connected to one end of the compression shell 8, and a threaded shaft 13 is in a threaded connection with the adjusting nut 14.

When the device is used, when the distance between the static electricity eliminating device 3 and the roll shaft 2 is required to be adjusted and controlled, the adjusting nut 14 is rotated so that the screw shaft 13 is pulled to slide in the direction approaching the adjusting nut 14, the screw shaft 13 synchronously pulls the control rod 9 to slide synchronously, and one end of the pushing plate 10 is driven to swing in the direction approaching the static electricity eliminating device 3 through the sliding shaft 12 which is connected inside the pushing groove 11 in a sliding manner, so that the static electricity eliminating device 3 slides in the direction approaching the roll shaft 2;

The adjusting nut 14 is reversely rotated to enable the threaded shaft 13 to slide in a direction away from the adjusting nut 14, one end of the pushing plate 10 is controlled to swing in a direction away from the static electricity eliminating device 3 through the pushing groove 11 and the sliding shaft 12, and the static electricity eliminating device 3 is pushed in a direction away from the roll shaft 2 under the action of the compression spring 6.

The end of the pushing plate 10, which is close to the static electricity eliminating device 3, is rotatably connected with a pushing wheel 15, so that friction force between the pushing plate 10 and the static electricity eliminating device 3 during swinging is reduced, and damage rate of the static electricity eliminating device 3 is reduced.

A self-locking structure is arranged between the pressing shell 8 and the fixed plate 4 and comprises a locking rod 16 which is connected to one side of the pressing shell 8 in a sliding way, at least one locking tooth 17 is fixedly connected to the locking rod 16, and the number of the locking teeth 17 is two, so that the pressing shell 8 and the fixed plate 4 can be kept stable. The section of the locking tooth 17 is triangular, a self-locking spring 18 is connected between the locking rod 16 and the compression shell 8, a locking groove 19 matched with the locking tooth 17 is formed in the compression shell 8, and in an initial state, the locking rod 16 is pulled under the action of the self-locking spring 18, so that the locking tooth 17 slides towards the direction close to the locking groove 19, the locking tooth 17 is clamped into the locking groove 19, and the compression shell 8 and the fixing plate 4 are fixed through the locking tooth 17 and the locking groove 19.

When in use, the pressing shell 8 is rotated, and the locking rod 16 is pulled under the action of the self-locking spring 18, so that the locking teeth 17 slide in the direction approaching the locking grooves 19, and the locking teeth 17 are clamped into the locking grooves 19. When the static electricity eliminating apparatus 3 is required to be removed, the locking lever 16 is pushed away from the locking groove 19, and the locking teeth 17 slide out of the locking groove 19, and at this time, the pressing housing 8 and the fixing plate 4 can be separated.

The fixed plate 4 is all slidingly connected with a locking ring sleeve 20, the locking ring sleeve 20 is arranged into a U shape with one side open, one side of the top plate 5 deviating from the static electricity eliminating device 3 is fixedly connected with a plurality of limiting teeth 21, a plurality of limiting grooves 22 matched with the limiting teeth 21 are formed in the locking ring sleeve 20, a pulling spring 23 is connected between one side of the locking ring sleeve 20 and the fixed plate 4, in an initial state, the locking ring sleeve 20 is pulled to slide towards a direction close to the limiting teeth 21 under the action of the pulling spring 23, so that the limiting teeth 21 are clamped into the limiting grooves 22, the top plate 5 is fixed at the current height, the static electricity eliminating device 3 is fixed at the current position under the action of the pushing plate 10, and an unlocking structure is arranged on the other side of the locking ring sleeve 20.

The unlocking structure comprises an unlocking disc 24 which is rotationally connected to the connecting plate 7, two symmetrically arranged pulling shafts 25 are fixedly connected to the unlocking disc 24, a pulling connecting rod 26 is connected between the pulling shafts 25 and the locking ring sleeve 20, a semicircular control groove 27 is formed in the connecting plate 7, a matching shaft 28 which is matched with the control groove 27 is fixedly connected to the unlocking disc 24, one end of the control groove 27 is positioned on the right side of the connecting plate 7, and the other end of the control groove 27 is positioned below the left side of the connecting plate 7;

When the unlocking disc 24 is rotated to enable the matching shaft 28 to be positioned at the right end of the control groove 27, the pulling connecting rod 26 pulls the locking ring sleeve 20 to slide in the direction close to the fixed plate 4, so that the limiting teeth 21 are clamped into the limiting grooves 22, the unlocking disc 24 is reversely rotated, and when the matching shaft 28 is positioned at the left lower part of the control groove 27, the locking ring sleeve 20 is limited by pulling the connecting rod 26, the limiting teeth 21 and the limiting grooves 22 are separated, and the top plate 5 can slide up and down.

The cleaning brush 29 is fixedly connected below the connecting plate 7, and the cleaning brush 29 is used for further cleaning products and further cleaning scraps and dust attached to the film.

The specific implementation method comprises the following steps:

The pressing shell 8 is rotated, and the locking rod 16 is pulled by the self-locking spring 18, so that the locking teeth 17 slide in the direction approaching the locking grooves 19, and the locking teeth 17 are clamped into the locking grooves 19. When the static electricity eliminating apparatus 3 is required to be removed, the locking lever 16 is pushed away from the locking groove 19, and the locking teeth 17 slide out of the locking groove 19, and at this time, the pressing housing 8 and the fixing plate 4 can be separated.

When the distance between the static eliminator 3 and the roll shaft 2 is required to be adjusted and controlled, the unlocking disc 24 is reversely rotated, and when the matching shaft 28 is positioned at the left lower part of the control groove 27, the locking ring sleeve 20 is limited by pulling the connecting rod 26, so that the limiting teeth 21 and the limiting groove 22 are separated, and the top plate 5 can slide up and down;

When the adjusting nut 14 is rotated to pull the threaded shaft 13 to slide in a direction approaching to the adjusting nut 14, the threaded shaft 13 synchronously pulls the control rod 9 to slide synchronously, and one end of the pushing plate 10 is driven to swing in a direction approaching to the static electricity eliminating device 3 through the sliding shaft 12 which is connected inside the pushing groove 11 in a sliding manner, so that the static electricity eliminating device 3 slides in a direction approaching to the roller shaft 2;

The adjusting nut 14 is reversely rotated to enable the threaded shaft 13 to slide in a direction away from the adjusting nut 14, one end of the pushing plate 10 is controlled to swing in a direction away from the static electricity eliminating device 3 through the pushing groove 11 and the sliding shaft 12, and the static electricity eliminating device 3 is pushed in a direction away from the roll shaft 2 under the action of the compression spring 6.

After the use, the unlocking disc 24 is rotated, when the matching shaft 28 is positioned at the right end of the control groove 27, the connecting rod 26 is pulled to pull the locking ring sleeve 20 to slide towards the direction close to the fixed plate 4, so that the limiting teeth 21 are clamped into the limiting grooves 22, and the top plate 5 is fixed.

The utility model aims at improving the existing static eliminating device of a dividing and cutting machine, solves the problems that when the static eliminating device is installed, the discharging electrode is required to be installed above a film-feeding guide roller of the dividing and cutting machine in parallel to be 0.5-1.0CM away from the guide roller so as to ensure the releasing effect of a negatively charged electronic group, when the static eliminating device is required to be used, the distance between the static eliminating device and the guide roller is required to be adjusted to control the static eliminating effect, the existing static eliminating device is inconvenient to adjust the distance between the static eliminating device and the guide roller, and further cleans the product to further clean the scraps and dust attached to a film by adding a cleaning brush.

Claims (8)

1. The static electricity eliminating device of the splitting machine comprises a main machine (1) and a roll shaft (2) arranged on the main machine (1), and is characterized in that a static electricity eliminating device (3) is arranged above the main machine (1), the static electricity eliminating device (3) is arranged above the roll shaft (2), and an adjusting structure for adjusting the height of the static electricity eliminating device (3) is arranged on the main machine (1);

The utility model provides a self-locking structure, including fixed connection fixed plate (4) of host computer (1) both sides, sliding connection has roof (5) on fixed plate (4), roof (5) with install compression spring (6) between fixed plate (4), static electricity eliminating device (3) fixed mounting is in on roof (5), roof (5) installation fixed connection is in the both ends of static electricity eliminating device (3), two fixedly connected with connecting plate (7) between fixed plate (4), two fixed plate (4) upper end rotation is connected in the both sides that compress tightly casing (8), sliding connection has control rod (9) on compressing tightly casing (8), the one end that rotates on compressing tightly casing (8) and is connected with push plate (10), push plate (10) are used for promoting static electricity eliminating device (3) to keeping away from the direction of compressing tightly casing (8), set up push groove (11) on push plate (10), fixedly connected with on control rod (9) with push groove (11) sliding connection's control rod (12), be provided with on pulling structure (9) between control rod (8) and the fixed connection has control rod (9).

2. The static electricity eliminating device of a slitter machine according to claim 1, wherein the pulling structure comprises a threaded shaft (13) fixedly connected with one end of the control rod (9), one end of the pressing shell (8) is rotatably connected with an adjusting nut (14), and the adjusting nut (14) is in threaded connection with the threaded shaft (13).

3. The static electricity eliminating apparatus of a slitter machine according to claim 1, wherein one end of the pushing plate (10) close to the static electricity eliminating apparatus (3) is rotatably connected with a pushing wheel (15).

4. The static electricity eliminating device of a slitter machine according to claim 1, wherein the self-locking structure comprises a locking rod (16) which is connected to one side of the pressing shell (8) in a sliding manner, at least one locking tooth (17) is fixedly connected to the locking rod (16), the section of the locking tooth (17) is triangular, a self-locking spring (18) is connected between the locking rod (16) and the pressing shell (8), and a locking groove (19) matched with the locking tooth (17) is formed in the pressing shell (8).

5. A static eliminator for a slitting machine according to claim 4, wherein the locking teeth (17) are provided in two.

6. The static electricity eliminating device of the splitting machine of claim 1, wherein the fixing plates (4) are all connected with a locking ring sleeve (20) in a sliding mode, the locking ring sleeve (20) is arranged into a U shape with one side being opened, one side, away from the static electricity eliminating device (3), of the top plate (5) is fixedly connected with a plurality of limiting teeth (21), a plurality of limiting grooves (22) matched with the limiting teeth (21) are formed in the locking ring sleeve (20), a pulling spring (23) is connected between one side of the locking ring sleeve (20) and the fixing plates (4), and an unlocking structure is arranged on the other side of the locking ring sleeve (20).

7. The static electricity eliminating device of a slitter machine according to claim 6, wherein the unlocking structure comprises an unlocking disc (24) rotatably connected to the connecting plate (7), two symmetrically arranged pulling shafts (25) are fixedly connected to the unlocking disc (24), a pulling connecting rod (26) is connected between the pulling shafts (25) and the locking ring sleeve (20), a semicircular control groove (27) is formed in the connecting plate (7), and a matching shaft (28) matched with the control groove (27) is fixedly connected to the unlocking disc (24).

8. The static electricity eliminating apparatus of a slitter machine according to claim 1, wherein a cleaning brush (29) is fixedly connected below the connecting plate (7).