CN110790052A - Winding and cutting mechanism of diaphragm for copper-clad plate - Google Patents

Abstract

The invention relates to a winding and cutting mechanism of a diaphragm for a copper-clad plate. The winding and cutting mechanism of the diaphragm for the copper-clad plate comprises a frame, a first winding assembly and a second winding assembly, wherein the frame comprises an installation chassis, an introduction frame body and a top plate, the introduction frame body is vertically arranged at one end of the installation chassis, a diaphragm introduction port is formed in the introduction frame body, the top plate is installed on the introduction frame body, the first winding assembly comprises a first air cylinder and a first winding roller, the first air cylinder is installed on the installation chassis, the first winding roller is installed on an output shaft of the first air cylinder, the second winding assembly comprises a second air cylinder and a second winding roller, and the second air cylinder is installed on the installation chassis and located between the first winding roller and the introduction frame body. The winding and cutting mechanism of the diaphragm for the copper-clad plate has high winding efficiency on the diaphragm.

Description

Winding and cutting mechanism of diaphragm for copper-clad plate

Technical Field

The invention relates to a winding and cutting mechanism of a diaphragm for a copper-clad plate.

Background

A Copper Clad Laminate (CCL) is a plate-like material, which is simply called a Copper Clad Laminate, prepared by impregnating electronic glass fiber cloth or other reinforcing materials with resin, coating Copper foil on one or both surfaces, and performing hot pressing. The copper-clad plate often needs to be attached or protected by a membrane in subsequent processing such as etching, protection, cutting and the like. In the process of using the film, a large roll of film is often required to be separated into a plurality of small rolls of film. In the winding process, after a small roll is wound and unloaded, another reel is mounted to perform the winding operation of the next small roll, which tends to result in low winding efficiency.

Disclosure of Invention

Therefore, a winding and cutting mechanism for a copper-clad plate membrane with high winding efficiency is needed.

A winding and cutting mechanism of a diaphragm for a copper-clad plate comprises a frame, a first winding assembly and a second winding assembly, wherein the frame comprises an installation chassis, an introduction frame body and a top plate, the introduction frame body is vertically arranged at one end of the installation chassis, a diaphragm introduction port is formed in the introduction frame body, the top plate is installed on the introduction frame body, the first winding assembly comprises a first air cylinder and a first winding roller, the first air cylinder is installed on the installation chassis, the first winding roller is installed on an output shaft of the first air cylinder, the second winding assembly comprises a second air cylinder and a second winding roller, the second air cylinder is installed on the installation chassis and positioned between the first winding roller and the introduction frame body, the second winding roller is installed on an output shaft of the second air cylinder, and the height position of the second winding roller is lower than that of the first winding roller, the second winding roller is used for winding the film sheet after the film sheet on the first winding roller is cut off.

In one embodiment, the mounting bottom frame includes a bottom plate, a frame strip and a mounting side plate, and the frame strip and the mounting side plate are respectively protruded from two opposite sides of the bottom plate.

In one embodiment, one side of the introducing frame body is vertically connected to one end of the mounting side plate, and the first cylinder and the second cylinder are both mounted on the mounting side plate.

In one embodiment, the bottom of the film sheet introducing opening is provided with an introducing roller, and the height position of the introducing roller is higher than that of the first winding roller.

In one embodiment, the roof support structure further comprises a tensioning assembly, wherein the tensioning assembly comprises an accommodating cylinder, a holding spring, a connecting body and two rotating cylinders, the top end of the accommodating cylinder is fixed on the roof plate, the connecting body is slidably inserted into the accommodating cylinder, the holding spring is sleeved on the accommodating cylinder, and the two rotating cylinders are rotatably sleeved on the connecting body.

In one embodiment, the top plate is provided with a circular observation hole, the connecting body comprises a cross bar and a vertical shaft, the end of the vertical shaft is vertically arranged in the middle of the cross bar, and the top of the vertical shaft is slidably inserted into the accommodating barrel.

In one embodiment, a stop cylinder is formed at a top end of the vertical shaft, the stop cylinder is slidably disposed in the accommodating cylinder, and a stop ring is protruded from an inner side of a bottom end of the accommodating cylinder and is used for stopping the stop cylinder.

In one embodiment, the cross bar is located on one side of the first winding roller facing the film introducing opening, and the two rotary cylinders are respectively rotatably sleeved at two opposite ends of the cross bar.

In one embodiment, the height positions of the two rotary drums are lower than the height position of the first winding roller, the top end of the abutting spring abuts against the top plate, and the bottom end of the abutting spring abuts against the cross bar.

In one embodiment, the winding device further comprises a cutter body, the cutter body comprises a U-shaped frame and a cutting blade, the U-shaped frame is fixed on the top plate, the U-shaped frame is located on one side, away from the first winding roller, of the tensioning assembly, the cutting blade is arranged at the bottom of the U-shaped frame in a protruding mode, a cutting edge is formed at the bottom of the cutting blade, and the height position of the cutting edge is higher than that of the bottom of the rotary drum.

When the winding and cutting mechanism of the film for the copper-clad plate is used, the first cylinder drives the first winding roller to rotate so as to wind the film. And after the first winding roller finishes winding and cutting, the second winding roller winds the film. After that, the first winding roller and the film sheet on the first winding roller can be dismounted and subsequently operated, so that the time for unloading can be saved, and the winding efficiency is improved.

Drawings

Fig. 1 is a schematic perspective view of a winding and cutting mechanism of a film for a copper-clad plate according to an embodiment.

Fig. 2 is a perspective view of another view of the winding and cutting mechanism of the film for copper-clad plate shown in fig. 1.

Fig. 3 is a schematic perspective view of the winding and cutting mechanism for a copper-clad plate shown in fig. 1 for removing the lead frame body and the frame strips.

Fig. 4 is a partially enlarged view of a portion a in fig. 2.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The invention relates to a winding and cutting mechanism of a diaphragm for a copper-clad plate. For example, the winding and cutting mechanism of the film for the copper-clad plate comprises a frame, a first winding assembly and a second winding assembly, wherein the frame comprises an installation underframe, an introduction frame body and a top plate. For example, the leading-in frame body is vertically arranged at one end of the installation underframe, a membrane leading-in opening is formed in the leading-in frame body, the top plate is arranged on the leading-in frame body, and the first winding component comprises a first air cylinder and a first winding roller. For example, the first cylinder is mounted on the mounting chassis, the first winding roller is mounted on an output shaft of the first cylinder, and the second winding assembly includes a second cylinder and a second winding roller. For example, the second air cylinder is mounted on the mounting chassis between the first winding roller and the introduction frame body, and the second winding roller is mounted on an output shaft of the second air cylinder. For example, the height position of the second winding roller is lower than that of the first winding roller, and the second winding roller is used for winding the film web after the film web on the first winding roller is cut off.

Referring to fig. 1 to 4, a winding and cutting mechanism for a film for a copper-clad plate includes a frame 20, a first winding component 30 and a second winding component 40, where the frame 20 includes an installation base frame 21, an introduction frame body 22 and a top plate 23, the introduction frame body 22 is vertically disposed at one end of the installation base frame 21, the introduction frame body 22 is opened with a film introduction port 221, the top plate 23 is installed on the introduction frame body 22, the first winding component 30 includes a first cylinder 31 and a first winding roller 32, the first cylinder 31 is installed on the installation base frame 21, the first winding roller 32 is installed on an output shaft of the first cylinder 31, the second winding component 40 includes a second cylinder 41 and a second winding roller 42, the second cylinder 41 is installed on the installation base frame 21 and is located between the first winding roller 32 and the introduction frame body 22, the second winding roller 42 is mounted on an output shaft of the second air cylinder 41, a height position of the second winding roller 42 is lower than a height position of the first winding roller 32, and the second winding roller 42 is used for winding the film web after the film web 100 on the first winding roller 32 is cut.

For example, when the winding and cutting mechanism for the film for copper clad laminate is used, the first cylinder 31 drives the first winding roller 32 to rotate so as to wind the film 100. After the first winding roller 32 finishes winding and cutting, the second winding roller 42 winds the film sheet 100. After that, the first winding roller 32 and the film 100 thereon can be unloaded and subsequently operated, so that the unloading time can be saved and the winding efficiency can be improved.

For example, in order to facilitate the installation of the first winding assembly 30 and the second winding assembly 40, the installation chassis 21 includes a bottom plate 211, a frame strip 212 and an installation side plate 213, and the frame strip 212 and the installation side plate 213 are respectively protruded from two opposite sides of the bottom plate 211. One side of the introducing frame body 22 is vertically connected to one end of the mounting side plate 213, and the first cylinder 31 and the second cylinder 41 are both mounted on the mounting side plate 213. The bottom of the film sheet introducing port 221 is provided with an introducing roller having a height position higher than that of the first winding roller 32. By providing the mounting side plate 213, the first cylinder 31 and the second cylinder 41 can be mounted by the mounting side plate 213.

For example, in order to tension the diaphragm 100, so that the diaphragm 100 can be tightly wound on the first winding roller 32, the winding and cutting mechanism of the diaphragm for copper-clad plate further includes a tensioning assembly 50, the tensioning assembly 50 includes an accommodating cylinder, a holding spring 51, a connecting body and two rotating cylinders 53, the top end of the accommodating cylinder is fixed on the top plate 23, the connecting body is slidably inserted into the accommodating cylinder, the holding spring 51 is sleeved on the accommodating cylinder, and the two rotating cylinders 53 are rotatably sleeved on the connecting body. Specifically, an observation circular hole 235 is formed in the top plate 23, the connecting body includes a cross bar 52 and a vertical shaft, an end of the vertical shaft is vertically disposed in the middle of the cross bar 52, and the top of the vertical shaft is slidably inserted into the accommodating barrel. A stopping cylinder is formed at the top end of the vertical shaft, the stopping cylinder is slidably arranged in the accommodating cylinder, a stopping ring is convexly arranged on the inner side of the bottom end of the accommodating cylinder, and the stopping ring is used for stopping the stopping cylinder. The cross bar 52 is located on one side of the first winding roller 32 facing the film introducing opening 221, and the two rotary cylinders 53 are respectively rotatably sleeved on two opposite ends of the cross bar 52. The height positions of the two rotating cylinders 53 are lower than the height position of the first winding roller 32, the top end of the holding spring 51 is held against the top plate 23, and the bottom end of the holding spring 51 is held against the cross bar 52. By providing the holding spring 51, the holding spring 51 can hold the connecting body to descend, so as to urge the two rotary cylinders 53 to roll and hold on the membrane 100, so that the membrane 100 extends from the bottoms of the two rotary cylinders 53 and is wound on the first winding roller 32, thereby improving the winding tightness of the membrane 100 by the first winding roller 32.

For example, in order to facilitate timely cutting after the first winding roller 32 winds the film 100, the winding and cutting mechanism for the copper clad laminate film further includes a cutter body 60, the cutter body 60 includes a U-shaped frame 61 and a cutting blade 62, the U-shaped frame 61 is fixed on the top plate 23, the U-shaped frame 61 is located on a side of the tensioning assembly 50 away from the first winding roller 32, the cutting blade 62 is protruded at a bottom of the U-shaped frame 61, a cutting edge is formed at a bottom of the cutting blade 62, and a height position of the cutting edge is higher than a height position of a bottom of the rotary drum 53.

For example, it is particularly important that, in order to facilitate timely cutting after the first winding roller 32 winds the film 100 by a preset amount, the first winding roller 32 is used for winding the film 100 to form a first film roll, and the first film roll is used for abutting against the two rotary drums 53 to ascend so that the film 100 abuts against the cutting edge, and the film 100 is cut by the cutting edge. By providing the cutter body 60, the diaphragm 100 can be cut off in time by the cutter body 60. Since the first winding member 30 is located at a position away from the film inlet 221 of the second winding assembly 40, the film 100 wound around the first winding member 30 can be wound by the second winding assembly 40 after the film 100 material wound around the first winding member 30 is cut, and the film 100 on the first winding member 30 can be slowly removed.

For example, in order to facilitate timely winding the cut film onto the second winding roller 42, the winding and cutting mechanism for a film for a copper-clad plate further includes a pressing component 70, and the pressing component 70 is located on a side of the cutter body 60 away from the tensioning component 50. The structure of the abutting assembly 70 is the same as that of the tensioning assembly 50, and the height position of the cross bar 52 of the abutting assembly 70 is lower than that of the cross bar 52 of the tensioning assembly 50. The abutting assembly 70 abuts against the diaphragm 100. The two rotary cylinders 53 of the abutting assembly 70 are aligned with the side of the second winding roller 42 away from the film sheet introducing opening 221. Two pin areas are arranged on one side of the second winding roller 42, which is far away from the membrane leading-in opening 221, a plurality of positioning short pins are inserted into each pin area, and the ends of the positioning short pins protrude out of the surface of each pin area. The two rotary cylinders 53 of the tightening assembly 70 are made of metal material and are aligned with the two pin areas, respectively. After the diaphragm 100 on the first winding roller 32 is cut, the two rotating cylinders 53 of the abutting assembly 70 are used for abutting the end part of the diaphragm 100 to move to the second winding roller 42, so that the end part of the diaphragm 100 is forced to be sleeved on the plurality of positioning short needles in the two needle inserting areas, and the plurality of positioning short needles are used for puncturing and fixing the end part of the diaphragm 100. The two rotary drums 53 are further configured to press the positioning short pins to descend so as to partially enter the second winding roller 42, and the second winding roller 42 is configured to drive the film 100 to rotate through the positioning short pins so as to wind the film into a second film roll. The two rotary cylinders 53 of the tightening assembly 70 are further used for tightening the second film roll wound on the second winding roller 42 to tension the film 100 wound on the second winding roller 42. By providing the plurality of positioning short needles, it is possible to facilitate the insertion of the needles and to fix the end of the membrane 100.

For example, in order to facilitate cutting the film 100 in time after the film 100 on the second film roll reaches a preset amount, the winding and cutting mechanism of the film for copper-clad plate further includes a cutting assembly 80, the bottom of the lead-in frame body 22 is provided with an installation opening 228, two opposite sides of the installation opening 228 are respectively provided with inclined guide grooves in a concave manner, and the distance between the inclined guide grooves and the bottom plate 211 gradually increases along the direction toward the tightening assembly 70. The cutting assembly 80 comprises a winding frame 81, a sliding knife rest 82, a cutting blade, a winding rope 83 and two elastic pulling ropes 84, the winding frame 81 is installed on the side wall of the introducing frame body 22 and is adjacent to the lower edge of the installation opening 228, and a rotating roller 815 is arranged on the winding frame 81. One end of the rotating roller 815 is detachably provided with a cradle. The two opposite sides of the sliding knife rest 82 are respectively clamped in the two inclined guide grooves in a sliding manner, the cutting blade is installed on one side of the sliding knife rest 82 departing from the winding frame 81, one end of the winding rope 83 is connected to the sliding knife rest 82, and the other end of the winding rope is wound on the rotating roller 815 of the winding frame 81. The two elastic pull ropes 84 are respectively connected to two opposite sides of the sliding knife rest 82, and one ends of the two elastic pull ropes 84 far away from the sliding knife rest 82 are respectively connected to two opposite ends of the cross bar 52. The elastic pull cords 84 are located on opposite sides of the membrane 100.

When needing to cut diaphragm 100 on the second winding roller 42, second diaphragm book on the second winding roller 42 is used for supporting support tight subassembly 70 rises, until two elasticity stay cords 84 with when two slope guide slots are parallel, the hand cradle is used for breaking away from under the exogenic action rotatory roller 815 is in order to release rotatory roller 815, two elasticity stay cords 84 stimulate sliding cutter frame 82 follows two slope guide slots move, in order to drive cut the blade court tight subassembly 70 removes in order to decide diaphragm 100, rotatory roller 815 is automatic release at this in-process winding rope 83. Thereafter, the cradle is manually inserted into the rotating roller 815, the winding roller is rotated by shaking to wind the winding rope 83, so that the sliding blade holder 82 is driven to retreat into the mounting opening 228 against the pulling force of the two elastic pulling ropes 84, and the cradle is fixed by clipping to hold the sliding blade holder 82. For example, during the process of winding the second film roll, the two pulling ropes are bent relative to the sliding blade carrier 82 during the descending process of the tightening assembly 70. For example, the length of the sliding blade holder 82 is long enough so that the sliding blade holder 82 does not come out of the inclined guide groove.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A winding and cutting mechanism of a diaphragm for a copper-clad plate is characterized by comprising a frame, a first winding assembly and a second winding assembly, wherein the frame comprises an installation chassis, an introduction frame body and a top plate, the introduction frame body is vertically arranged at one end of the installation chassis, a diaphragm introduction port is formed in the introduction frame body, the top plate is installed on the introduction frame body, the first winding assembly comprises a first air cylinder and a first winding roller, the first air cylinder is installed on the installation chassis, the first winding roller is installed on an output shaft of the first air cylinder, the second winding assembly comprises a second air cylinder and a second winding roller, the second air cylinder is installed on the installation chassis and positioned between the first winding roller and the introduction frame body, the second winding roller is installed on an output shaft of the second air cylinder, and the height position of the second winding roller is lower than that of the first winding roller, the second winding roller is used for winding the film sheet after the film sheet on the first winding roller is cut off.

2. The winding and cutting mechanism for the copper-clad plate diaphragm according to claim 1, wherein the mounting underframe comprises a bottom plate, a frame strip and a mounting side plate, and the frame strip and the mounting side plate are respectively convexly arranged at two opposite sides of the bottom plate.

3. The winding and cutting mechanism for the copper-clad plate diaphragm according to claim 2, wherein one side of the lead-in frame body is vertically connected to one end of the mounting side plate, and the first cylinder and the second cylinder are both mounted on the mounting side plate.

4. The winding and cutting mechanism of the film for copper-clad plate according to claim 3, wherein the bottom of the film introducing port is provided with an introducing roller, and the height position of the introducing roller is higher than that of the first winding roller.

5. The mechanism for winding and cutting a film for a copper-clad plate according to claim 4, further comprising a tensioning assembly, wherein the tensioning assembly comprises an accommodating cylinder, a holding spring, a connecting body and two rotating cylinders, the top end of the accommodating cylinder is fixed on the top plate, the connecting body is slidably inserted into the accommodating cylinder, the holding spring is sleeved on the accommodating cylinder, and the two rotating cylinders are rotatably sleeved on the connecting body.

6. The winding and cutting mechanism for the copper-clad plate diaphragm according to claim 5, wherein the top plate is provided with an observation circular hole, the connecting body comprises a cross bar and a vertical shaft, the end part of the vertical shaft is vertically arranged in the middle of the cross bar, and the top part of the vertical shaft is slidably inserted into the accommodating barrel.

7. The winding and cutting mechanism for the copper-clad plate diaphragm according to claim 6, wherein a stop cylinder is formed at the top end of the vertical shaft, the stop cylinder is slidably disposed in the accommodating cylinder, a stop ring is convexly disposed at the inner side of the bottom end of the accommodating cylinder, and the stop ring is used for stopping the stop cylinder.

8. The winding and cutting mechanism for the film covering the copper plate according to claim 7, wherein the cross bar is positioned on one side of the first winding roller facing the film introducing port, and the two rotary cylinders are respectively rotatably sleeved on two opposite ends of the cross bar.

9. The winding and cutting mechanism of a film for copper-clad plate according to claim 8, wherein the height position of the two rotary drums is lower than the height position of the first winding roller, the top end of the abutting spring abuts against the top plate, and the bottom end of the abutting spring abuts against the cross bar.

10. The winding and cutting mechanism for the copper-clad plate film according to claim 9, further comprising a cutter body, wherein the cutter body comprises a U-shaped frame and a cutting blade, the U-shaped frame is fixed on the top plate, the U-shaped frame is located on one side of the tensioning assembly away from the first winding roller, the cutting blade is protruded at the bottom of the U-shaped frame, a cutting edge is formed at the bottom of the cutting blade, and the height position of the cutting edge is higher than the height position of the bottom of the rotary drum.

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