CN109278305B - Capacitor film is with connecing belting - Google Patents

Abstract

The invention provides tape splicing equipment for a capacitor film, which comprises a shell, a moving device, a pasting device and a rolling device, wherein an opening is formed in the shell, the pasting device is arranged in the shell, the moving device is used for moving the capacitor film between the opening and a working area of the pasting device, and the rolling device is used for shaping the capacitor film on the moving device. According to the invention, through the matching of the moving device and the pasting device, the capacitor film is moved, the double-sided adhesive tape is pasted on the capacitor film, and the capacitor film is pasted together, so that the manual work is replaced, the replacement efficiency of the capacitor film is improved, and meanwhile, the rolling device can roll the capacitor film flat, so that the capacitor film has higher flatness, the bulging probability of the capacitor film is reduced, and the flatness of the capacitor film is ensured.

Description

Capacitor film is with connecing belting

Technical Field

The invention belongs to the technical field of tape splicing equipment for a capacitor film, and particularly relates to tape splicing equipment for the capacitor film.

Background

The capacitor is one of electronic elements which are used in electronic equipment in a large number, the main constituent part of the capacitor is a film, and the situation of tape breakage inevitably occurs in the film production process, and at present, the capacitor film is manually connected after tape breakage. The present inventors have found that the following problems exist in the process of splicing capacitor films: the capacitance film has long tape splicing time, which affects the production efficiency of the capacitance film; the uneven connection of the capacitor film causes bulge and affects the production quality of the capacitor film.

Disclosure of Invention

The invention aims to provide a tape splicing device for a capacitive film, which aims to solve all or one of the problems in the background art.

In order to solve the technical problems, the invention adopts the technical scheme that:

the tape splicing equipment for the capacitor film comprises a shell, a moving device, a pasting device and a rolling device, wherein an opening is formed in the shell, the pasting device is arranged in the shell, the moving device is used for enabling the capacitor film to move between the opening and a working area of the pasting device, and the rolling device is used for shaping the capacitor film on the moving device.

Optionally, the moving device includes two sets of moving units and driving units, the two sets of moving units are symmetrically installed in the casing in a sliding connection manner, and can vertically slide in the casing, the moving units are used for adsorbing the capacitor films and performing vertical and horizontal movement, and the driving units provide power for the movement of the two sets of moving units.

Optionally, the moving unit comprises a vertical moving frame, a transverse moving frame, a moving motor, a moving gear and an adsorption plate, the vertical moving frame is installed in the shell in a sliding connection mode, the transverse moving frame is installed on the vertical moving frame in a sliding connection mode, the moving motor is installed on the vertical moving frame in a detachable mode, the moving gear is installed on an output shaft of the moving motor in a key connection mode, the adsorption plate is installed on the transverse moving frame in a detachable mode, an adsorption end face is arranged on the adsorption plate, a plurality of adsorption holes are formed in the adsorption end face, connecting holes communicated with the adsorption holes are formed in the side wall of the adsorption plate, first transmission teeth are arranged on the vertical moving frame, second transmission teeth are arranged on the transverse moving frame, and the moving gear is meshed with the second transmission teeth, the drive unit comprises a drive motor and a drive gear, the drive motor is installed in the shell, the drive gear is installed on an output shaft of the drive motor in a key connection mode, and the drive gear is meshed with the first transmission gear.

Optionally, paste the device and include coil stock wheel, coil stock motor, a plurality of transmission gyro wheel, connecting axle, material loading wheel, clutch blocks and spring, the coil stock motor passes through the detachable mode and installs in the casing, the coil stock wheel passes through the detachable mode and installs on the output shaft of coil stock motor, the transmission gyro wheel is installed in the casing through the mode of rotating the connection, the connecting axle is installed in the casing through the mode of rotating the connection, the material loading wheel passes through the detachable mode and installs on the outer wall of connecting axle, the clutch blocks laminating is on the outer wall of material loading wheel, the one end of spring is fixed in the casing, the other end of spring is fixed on the clutch blocks.

Optionally, the rolling device includes a rolling slider, a rolling motor, a rolling screw rod, a rolling nut, a rolling shaft, a gear lack, a rotating frame, a rolling wheel, a rotating motor, a rotating gear and a transmission rack, the rolling slider is transversely arranged on the left and right sides of the housing, the rolling slider is mounted in the rolling sliding groove, the rolling motor is detachably mounted on the housing, the rolling screw rod is mounted in the rolling sliding groove in a rotating connection manner, the rolling nut is mounted on the rolling slider in a rotating connection manner, the rolling nut is matched with the rolling screw rod, the rolling shaft is fixed on the rolling slider, the rotating frame is sleeved on the outer wall of the rolling shaft and can rotate around the rolling shaft, the gear lack is mounted on the outer wall of the rolling shaft in a key connection manner, and the rolling wheel is mounted on the rotating frame in a rotating connection manner, the rolling wheel is longitudinally arranged, a guide groove is formed in the side wall of the shell, a guide pillar is arranged on the rotating frame, the guide pillar is installed in the guide groove and can slide along the guide groove, a moving groove is formed in the shell, the transmission rack is installed in the moving groove and can slide along the moving groove, the rotating motor is installed in the shell, the rotating gear is installed on an output shaft of the rotating motor in a key connection mode, and the rotating gear is meshed with the transmission rack.

Optionally, the guide groove includes an upper moving portion, a turning portion and a lower moving portion, the upper moving portion and the lower moving portion are both transversely arranged, the turning portion is used for communicating the upper moving portion and the lower moving portion, and the turning portion is in a half circular ring shape.

The invention has the beneficial effects that:

according to the invention, through the matching of the moving device and the pasting device, the capacitor film is moved, the double-sided adhesive tape is pasted on the capacitor film, and the capacitor film is pasted together, so that the manual work is replaced, the replacement efficiency of the capacitor film is improved, and meanwhile, the rolling device can roll the capacitor film flat, so that the capacitor film has higher flatness, the bulging probability of the capacitor film is reduced, and the flatness of the capacitor film is ensured.

Drawings

The contents of the drawings and the reference numerals in the drawings are briefly described as follows:

FIG. 1 is a schematic structural diagram of a taping device for a capacitive film according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a mobile device according to an embodiment of the present invention;

FIG. 3 is a schematic structural view of an applicator according to an embodiment of the present invention;

FIG. 4 is a schematic structural view of a rolling device according to an embodiment of the present invention;

FIG. 5 is an enlarged schematic view of the structure I of FIG. 4;

fig. 6 is a schematic structural view of a guide groove according to an embodiment of the present invention.

Detailed Description

The following embodiments are provided to describe the embodiments of the present invention, and to further describe the detailed description of the embodiments of the present invention, such as the shapes, configurations, mutual positions and connection relationships of the components, the functions and operation principles of the components, the manufacturing processes and operation methods, etc., so as to help those skilled in the art to more fully, accurately and deeply understand the inventive concept and technical solutions of the present invention.

It should be noted that all expressions using "first" and "second" in the embodiments of the present invention are used for distinguishing two entities with the same name but different names or different parameters, and it should be noted that "first" and "second" are merely for convenience of description and should not be construed as limitations of the embodiments of the present invention, and they are not described in any more detail in the following embodiments.

The invention provides tape splicing equipment for a capacitor film, which comprises a shell, a moving device, an adhering device and a rolling device, wherein the shell is provided with an opening, the adhering device is arranged in the shell and is used for providing a double-sided adhesive tape, the moving device is used for moving the capacitor film between the opening and a working area of the adhering device, and the rolling device is used for shaping the capacitor film on the moving device.

As shown in fig. 1 to 6, as an embodiment of the present invention, a tape splicing apparatus for a capacitive film includes a housing 1, a moving device 2, an adhering device 3 and a rolling device 4, wherein the housing 1 is provided with an opening 1a, and when in use, an operator feeds the capacitive film into the tape splicing apparatus from the opening 1 a. The pasting device 3 is arranged in the housing 1 and is used for providing a double-sided adhesive tape, and the moving device 2 is used for moving the capacitor film between the opening 1a and the working area of the pasting device 3, so that the double-sided adhesive tape is pasted on the capacitor film and the capacitor film is pasted together. The rolling device 4 is used for shaping the capacitor film on the mobile device 2, so that the capacitor film has high flatness, the bulge probability of the capacitor film is reduced, and the flatness of the capacitor film is ensured.

In order to replace manual movement of the capacitor film, the moving device 2 comprises two groups of moving units and driving units, the two groups of moving units are symmetrically installed in the shell 1 in a sliding connection mode and can vertically slide in the shell 1, and the moving units are used for adsorbing the capacitor film and vertically and transversely moving, so that the manual movement is replaced, and the capacitor film moving device has the advantages of stable and rapid transmission; the driving unit provides power for the movement of the two groups of moving units, and the manufacturing cost is saved.

Optionally, the mobile unit includes vertical removal frame 21, lateral shifting frame 22, moving motor 23, removal gear 24 and adsorption plate 25, be equipped with vertical sliding tray in the casing 1, vertical removal frame 21 is installed in vertical sliding tray, be provided with lateral sliding tray on the vertical removal frame 21, lateral shifting frame 22 is installed in lateral sliding tray, moving motor 23 installs on vertical removal frame 21 through bolted connection's mode, moving gear 24 installs on the output shaft of moving motor 23 through the mode of key-type connection, adsorption plate 25 installs on lateral shifting frame 22 through bolted connection's mode, be equipped with the adsorption face on the adsorption plate 25, be equipped with a plurality of adsorption holes on the adsorption face, during the use, the negative pressure that the electric capacity film formed through the adsorption hole is fixed on the adsorption face. The side wall of the adsorption plate 25 is provided with a connecting hole communicated with the adsorption hole, wherein the connecting hole is communicated with external negative pressure equipment. Be equipped with first driving gear on the vertical removal frame 21, be equipped with the second driving gear on the lateral shifting frame 22, moving gear 24 meshes with the second driving gear mutually, and when the during operation of moving motor 23, the output shaft of moving motor 23 drives moving gear 24 rotatory, and moving gear 24 drives lateral shifting frame 22 and removes, and lateral shifting frame 22 drives adsorption plate 25 and removes, and adsorption plate 25 drives the removal of electric capacity film, has realized electric capacity film's lateral shifting. The driving unit comprises a driving motor 26 and a driving gear 27, the driving motor 26 is installed in the shell 1, the driving gear 27 is installed on an output shaft of the driving motor 26 in a key connection mode, and the driving gear 27 is meshed with the first transmission gear. When the driving motor 26 works, the output shaft of the driving motor 26 drives the driving gear 27 to rotate, the driving gear 27 drives the vertical moving frame 21 to vertically move, the vertical moving frame 21 drives the transverse moving frame 22 to vertically move, and the transverse moving frame 22 drives the capacitor film to transversely move, so that the vertical movement of the capacitor film is realized, manual movement is replaced, and the capacitor film moving device has the advantage of stable movement.

In order to replace manual double-sided tape pasting, the pasting device 3 comprises a material rolling wheel 31, a material rolling motor 32, a plurality of transmission rollers 33, a connecting shaft 34, a material loading wheel 35, a friction block 36 and a spring 37, wherein the material rolling motor 32 is installed at the left part of the shell 1 in a bolt connection mode, the material rolling wheel 31 is sleeved on an output shaft of the material rolling motor 32 and is fixed through bolts, and when the double-sided tape pasting device is used, the material rolling wheel 31 is used for collecting waste materials of the double-sided tape and can be replaced quickly through the bolts; the transmission roller 33 is installed in the shell 1 in a bearing connection mode, the connecting shaft 34 is installed at the right part of the shell 1 in a bearing connection mode, the feeding wheel 35 is sleeved on the outer wall of the connecting shaft 34 and fixed through bolts, when the feeding device is used, the feeding wheel 35 can be replaced quickly through bolts, and maintenance is convenient; the friction block 36 is attached to the outer wall of the feeding wheel 35, the friction force of the friction block 36 enables the feeding wheel 35 to have certain friction force when rotating, so that the double-sided tape keeps stable transmission in the feeding process, one end of the spring 37 is fixed in the shell 1, and the other end of the spring 37 is fixed on the friction block 36. Wherein, be fixed with outside double-sided tape on the material loading wheel 35, the other end of double-sided tape passes through turning to the wraparound at the coiling wheel 31 of transmission gyro wheel 33, and when coiling motor 32 during operation, the output shaft of coiling motor 32 drives coiling wheel 31 rotatory, and coiling wheel 31 drives double-sided tape and removes, has realized double-sided tape's automatic feeding, has replaced artifical material loading, has improved the efficiency of pasting of electric capacity film.

In order to reduce the bubbling or wrinkling of the capacitor film on the adsorbed rear surface, the rolling device 4 comprises a rolling sliding block 41, a rolling motor 42, a rolling screw rod 43, a rolling nut 44, a rolling shaft 45, a missing gear 46, a rotating frame 47, a rolling wheel 48, a rotating motor 49, a rotating gear 410 and a transmission rack 411, rolling sliding grooves transversely arranged are arranged on the left side and the right side of the housing 1, the rolling sliding block 41 is installed in the rolling sliding grooves, the rolling motor 42 is installed on the housing 1 in a bolt connection mode, the rolling screw rod 43 is installed in the rolling sliding grooves in a bearing connection mode, the rolling nut 44 is installed on the rolling sliding block 41 in a rotation connection mode, the rolling nut 44 is matched with the rolling screw rod 43, the rolling shaft 45 is fixed on the rolling sliding block 41, and the rotating frame 47 is sleeved on the outer wall of the rolling shaft 45, the rolling wheel 48 is arranged on the rotating frame 47 in a bearing connection mode, the rolling wheel 48 is arranged along the longitudinal direction, the side wall of the shell 1 is provided with a guide groove 11, the guide groove 11 comprises an upper moving part 11a, a turning part 11b and a lower moving part 11c, the upper moving part 11a and the lower moving part 11c are arranged along the transverse direction, the turning part 11b is used for communicating the upper moving part 11a with the lower moving part 11c, and the turning part 11b is in a half circular ring shape. The rotating frame 47 is provided with a guide post 47a, the guide post 47a is installed in the guide groove 11 and can slide along the guide groove 11, and when the guide post 47a is on the upper moving part 11a, the rolling wheel 48 moves away from the upper side of the shell 1; when the guide post 47a moves at the turning portion 11b, the rolling wheel 48 turns from the upper side away from the housing 1 to the opening 1a direction; when the guide post 47a is in the lower moving part 11c, the rolling wheel 48 moves in the opening 1a to roll the capacitor thin film on the adsorption plate 25 flat; the improved structure of the motor is characterized in that a moving groove is formed in the shell 1, the transmission rack 411 is installed in the moving groove and can slide along the moving groove, the rotating motor 49 is installed in the shell 1, the rotating gear 410 is installed on an output shaft of the rotating motor 49 in a key connection mode, and the rotating gear 410 is meshed with the transmission rack 411. Wherein, the rolling motor 42 works, the output shaft of the rolling motor 42 drives the rolling screw rod 43 to rotate, the rolling screw rod 43 drives the rolling nut 44 to rotate, the rolling nut 44 drives the rolling slide block 41 to move towards the opening 1a, the rolling slide block 41 drives the rotating frame 47 to move, when the guide post 47a moves to the steering part 11b, the rotating motor 49 works, the output shaft of the rotating motor 49 drives the rotating gear 410 to rotate, the rotating gear 410 drives the transmission rack 411 to move, the transmission rack 411 drives the missing gear 46 to rotate, the missing gear 46 drives the rolling shaft 45 to rotate, the rolling shaft 45 drives the rotating frame 47 to rotate, the rotating frame 47 drives the rolling wheel 48 to rotate until the rotating frame 47 moves to the opening 1a to go out of the steering, and then the rolling motor 42 works reversely to drive the rolling wheel 48 to move reversely, so that the capacitor film on the adsorption plate 25 is rolled flat, and the surface blistering or wrinkling of the capacitor film is reduced.

When the capacitor film clamping device is used, an operator discharges two broken ends of a capacitor film from the opening 1a and sends the two broken ends of the capacitor film into the belt splicing device, then the capacitor film is fixed on an adsorption end face by negative pressure formed by an adsorption hole, after the adsorption is finished, the rolling motor 42 works, an output shaft of the rolling motor 42 drives the rolling screw rod 43 to rotate, the rolling screw rod 43 drives the rolling nut 44 to rotate, the rolling nut 44 drives the rolling slider 41 to move towards the opening 1a, the rolling slider 41 drives the rotating frame 47 to move, when the guide pillar 47a moves to the steering part 11b, the rotating motor 49 works, an output shaft of the rotating motor 49 drives the rotating gear 410 to rotate, the rotating gear 410 drives the transmission rack 411 to move, the transmission rack 411 drives the missing gear 46 to rotate, the missing gear 46 drives the rolling shaft 45 to rotate, the rolling shaft 45 drives the rotating frame 47 to rotate, the rotating frame 47 drives the rolling wheel 48 to rotate until the, then the rolling motor 42 works reversely to drive the rolling wheel 48 to move reversely to roll the capacitor film on the adsorption plate 25, when the capacitor film is rolled, the rolling wheel 48 moves to the initial position, at this time, when the moving motor 23 works, the output shaft of the moving motor 23 drives the moving gear 24 to rotate, the moving gear 24 drives the transverse moving frame 22 to move, the transverse moving frame 22 drives the adsorption plate 25 to move, the adsorption plate 25 drives the capacitor film to move until the capacitor film moves to the working area of the pasting device 3, then when the rolling motor 32 works, the output shaft of the rolling motor 32 drives the rolling wheel 31 to rotate, the rolling wheel 31 drives the double-sided tape to move until the double-sided tape in the working area has an adhesive surface, at this time, when the driving motor 26 works, the output shaft of the driving motor 26 drives the driving gear 27 to rotate, the driving gear 27 drives the vertical moving frame 21 to move vertically, vertical removal frame 21 drives the vertical removal of horizontal removal frame 22, and horizontal removal frame 22 drives electric capacity film horizontal migration, makes the one end of electric capacity film paste on the double-sided adhesive tape, then operating personnel cuts the face of glue, cuts the back when the face of glue, and driving motor 26 and moving motor 23 reverse work, until replying opening 1a position, and at this moment driving motor 26 work is in the same place the laminating of electric capacity film, has realized pasting the automation to electric capacity film.

According to the invention, through the matching of the moving device 2 and the pasting device 3, the capacitor film is moved to paste the double-sided adhesive tape onto the capacitor film and paste the capacitor film together, so that the manual work is replaced, the replacement efficiency of the capacitor film is improved, and meanwhile, the rolling device 4 can roll the capacitor film flat, so that the capacitor film has higher flatness, thereby reducing the bulging probability of the capacitor film and ensuring the flatness of the capacitor film.

The invention has been described in an illustrative manner, and it is to be understood that the invention is not limited to the precise form disclosed, and that various insubstantial modifications of the inventive concepts and solutions, or their direct application to other applications without such modifications, are intended to be covered by the scope of the invention. The protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims (4)

1. A splicing device for a capacitor film is characterized in that: the device comprises a shell, a moving device, a pasting device and a rolling device, wherein an opening is formed in the shell, the pasting device is arranged in the shell, the moving device is used for enabling a capacitor film to move between the opening and a working area of the pasting device, and the rolling device is used for shaping the capacitor film on the moving device;

the moving device comprises two groups of moving units and a driving unit, the two groups of moving units are symmetrically arranged in the shell in a sliding connection mode and can vertically slide in the shell, the moving units are used for adsorbing the capacitor films and vertically and transversely moving, and the driving unit provides power for the movement of the two groups of moving units;

the moving unit comprises a vertical moving frame, a transverse moving frame, a moving motor, a moving gear and an adsorption plate, wherein the vertical moving frame is arranged in the shell in a sliding connection mode, the transverse moving frame is arranged on the vertical moving frame in a sliding connection mode, the moving motor is arranged on the vertical moving frame in a detachable mode, the moving gear is arranged on an output shaft of the moving motor in a key connection mode, the adsorption plate is arranged on the transverse moving frame in a detachable mode, an adsorption end face is arranged on the adsorption plate, a plurality of adsorption holes are formed in the adsorption end face, connecting holes communicated with the adsorption holes are formed in the side wall of the adsorption plate, first transmission teeth are arranged on the vertical moving frame, second transmission teeth are arranged on the transverse moving frame, and the moving gear is meshed with the second transmission teeth, the drive unit comprises a drive motor and a drive gear, the drive motor is installed in the shell, the drive gear is installed on an output shaft of the drive motor in a key connection mode, and the drive gear is meshed with the first transmission gear.

2. The splicing apparatus of claim 1, wherein: paste the device and include coil stock wheel, coil stock motor, a plurality of drive roller, connecting axle, material loading wheel, clutch blocks and spring, the coil stock motor passes through the detachable mode and installs in the casing, the coil stock wheel passes through the detachable mode and installs on the output shaft of coil stock motor, the drive roller is installed in the casing through the mode of rotating the connection, the connecting axle is installed in the casing through the mode of rotating the connection, the material loading wheel passes through the detachable mode and installs on the outer wall of connecting axle, the clutch blocks laminating is on the outer wall of material loading wheel, the one end of spring is fixed in the casing, the other end of spring is fixed on the clutch blocks.

3. The splicing apparatus of claim 1, wherein: the rolling device comprises rolling sliding blocks, rolling motors, rolling screw rods, rolling nuts, rolling shafts, gear-lacking gears, rotating frames, rolling wheels, rotating motors, rotating gears and transmission racks, rolling sliding grooves which are transversely arranged are formed in the left side and the right side of the shell, the rolling sliding blocks are installed in the rolling sliding grooves, the rolling motors are installed on the shell in a detachable mode, the rolling screw rods are installed in the rolling sliding grooves in a rotating connection mode, the rolling nuts are installed on the rolling sliding blocks in a rotating connection mode, the rolling nuts are matched with the rolling screw rods, the rolling shafts are fixed on the rolling sliding blocks, the rotating frames are sleeved on the outer walls of the rolling shafts and can rotate around the rolling shafts, the gear-lacking gears are installed on the outer walls of the rolling shafts in a key connection mode, and the rolling wheels are installed on the rotating frames in a rotating connection mode, the rolling wheel is longitudinally arranged, a guide groove is formed in the side wall of the shell, a guide pillar is arranged on the rotating frame, the guide pillar is installed in the guide groove and can slide along the guide groove, a moving groove is formed in the shell, the transmission rack is installed in the moving groove and can slide along the moving groove, the rotating motor is installed in the shell, the rotating gear is installed on an output shaft of the rotating motor in a key connection mode, and the rotating gear is meshed with the transmission rack.

4. A splicing device according to claim 3, characterized in that: the guide groove comprises an upper moving part, a turning part and a lower moving part, the upper moving part and the lower moving part are transversely arranged, the turning part is used for communicating the upper moving part with the lower moving part, and the turning part is in a half circular ring shape.

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