CN111113528A - Adhesive tape beveling device - Google Patents

Abstract

The invention relates to an adhesive tape beveling device, comprising: a base plate; the feeding mechanism is arranged on the bottom plate; the feeding mechanism is arranged on the bottom plate and is close to the feeding mechanism; and the shearing mechanism comprises a shearing tool and a length adjusting assembly, the length adjusting assembly is installed on the bottom plate, the adhesive tape extends along the first direction, the shearing tool shears the adhesive tape along the second direction which forms an included angle with the first direction, and the length adjusting assembly can drive the shearing tool to do translational motion along the first direction. An adhesive tape beveling method includes: conveying the adhesive tape to a shearing mechanism, wherein the adhesive tape extends along a first direction; the shearing mechanism comprises a shearing tool and a length adjusting assembly, the shearing tool shears the adhesive tape along a second direction which forms an included angle with the first direction, and the shearing tool is driven to move in a translation mode along the first direction through the length adjusting assembly. The adhesive tape beveling device has the advantages that the length of the adhesive tape with the bevel angle can be adjusted when the adhesive tape is cut, and the precision is high.

Description

Adhesive tape beveling device

Technical Field

The invention relates to the technical field of adhesive tapes, in particular to an adhesive tape beveling device.

Background

The existing adhesive tape cutting equipment is generally in a direct adhesive tape cutting mode, when an adhesive tape with an oblique angle is required, a cutter can be manually used for cutting, time and labor are wasted, errors exist in the cut length and angle, the adhesive tape is low in beveling precision, time and labor are wasted, and the efficiency is low.

Disclosure of Invention

In view of the above, it is necessary to provide an adhesive tape beveling apparatus for solving the problems of the accuracy and the low efficiency of the adhesive tape beveling.

An adhesive tape beveling apparatus comprising:

a base plate;

the feeding mechanism is arranged on the bottom plate and used for providing adhesive tapes;

the feeding mechanism is arranged on the bottom plate, is close to the feeding mechanism and is used for receiving and conveying the adhesive tape; and

the shearing mechanism comprises a shearing tool and a length adjusting assembly, wherein the length adjusting assembly is installed on the bottom plate, the adhesive tape extends along a first direction, the shearing tool shears the adhesive tape along a second direction with an included angle with the first direction, and the length adjusting assembly can drive the shearing tool to do translational motion along the first direction, so that the shearing length of the adhesive tape is adjustable.

Foretell sticky tape beveling device is equipped with scissors utensil and angle adjusting part, and the scissors utensil can cut out the sticky tape that has the oblique angle, and through adjusting length adjusting part, the length when cutting out the sticky tape that has the oblique angle can be adjusted, and the precision is high and the simple operation.

In one embodiment, the length adjusting assembly comprises a length adjusting slide rail, a length adjusting slider and an adjusting handle, the length adjusting slide rail extends along the first direction and is connected with the length adjusting slider in a sliding manner, and the length adjusting slider can be driven to slide along the length adjusting slide rail by operating the adjusting handle to drive the shear to move in a translation manner along the first direction.

In one embodiment, the cutting mechanism further includes an angle adjusting assembly, the angle adjusting assembly is connected to the cutter, and the angle adjusting assembly can drive the cutter to rotate around a vertical direction relative to the adhesive tape.

In one embodiment, the angle adjusting assembly includes a fixing base and an adjusting base, the fixing base is connected to the length adjusting assembly, the adjusting base is rotatably disposed on the fixing base, and the shear is disposed on the adjusting base.

In one embodiment, the angle adjusting assembly further comprises a limiting post, the adjusting base is provided with a limiting groove, the limiting groove is arc-shaped, and the limiting post is inserted into the limiting groove.

In one embodiment, the shearing mechanism further includes a pressing block driving member, a first pressing block and a second pressing block, the shearing tool includes a first blade and a second blade which are hinged to each other, the first blade and the second blade are disposed between the first pressing block and the second pressing block, and the pressing block driving member can drive the first pressing block and the second pressing block to approach or separate from each other, so as to drive the first blade and the second blade to open or close.

In one embodiment, the feeding mechanism includes a first clamping assembly for clamping and conveying the adhesive tape, and a clamping translational driving member connected to the first clamping assembly to drive the first clamping assembly to move in the first direction in a translational manner.

In one embodiment, the first clamping assembly includes two first clamping jaws disposed opposite to each other and a first clamping driving member capable of driving the two first clamping jaws to approach or move away from each other.

In one embodiment, the feeding mechanism further includes a second clamping assembly, which is spaced from the first clamping assembly in the first direction, and is located between the first clamping assembly and the feeding mechanism, for clamping the adhesive tape.

In one embodiment, the feeding mechanism further includes a feeding slide rail and a positioner, the first clamping assembly and the second clamping assembly are both slidably disposed on the feeding slide rail, the clamping translational driving member can drive the second clamping assembly and the first clamping assembly to perform synchronous translational motion along the feeding slide rail, and the positioner is disposed on the slide rail and located on one side of the second clamping assembly, so as to limit the second clamping assembly.

In one embodiment, the second clamping assembly includes two second clamping jaws disposed opposite to each other and a second clamping driving member capable of driving the two second clamping jaws to approach or move away from each other.

In one embodiment, the feeding mechanism comprises a material tray, a mounting seat, a guide wheel and an elastic member, the material tray is fixedly arranged on the mounting seat, the material tray is circular so that the adhesive tape is arranged on the material tray in a winding manner, the guide wheel is fixedly arranged on one side of the mounting seat, which is provided with the material tray, the guide wheel is positioned between the material tray and the feeding mechanism so as to tension the adhesive tape, and the elastic member is inserted in the material tray and elastically abutted between the material tray and the adhesive tape.

Drawings

FIG. 1 is an isometric view of the tape beveling apparatus of this example (with the hood closed);

FIG. 2 is an isometric view of the tape beveling apparatus of this example (with the hood open);

FIG. 3 is a perspective view of the assembly of the base plate, the feeding mechanism and the shearing mechanism of FIG. 1;

FIG. 4 is an assembled isometric view of the loading mechanism and tape of FIG. 3;

FIG. 5 is an exploded view of FIG. 4;

FIG. 6 is an assembled isometric view of the feed mechanism of FIG. 3;

FIG. 7 is an exploded view of FIG. 6;

FIG. 8 is an assembled isometric view of the shearing mechanism of FIG. 3;

fig. 9 is an exploded view of fig. 8.

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 in the description of the invention 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.

Referring to fig. 3, an embodiment of the beveling apparatus for a tape 80 includes a base plate 100, a feeding mechanism 200, a feeding mechanism 300, and a cutting mechanism 400.

Referring to fig. 3, the feeding mechanism 200 is installed on the base plate 100 for providing the adhesive tape 80.

It should be noted that, since the adhesive tape 80 is sticky and has a strip shape, the adhesive tape 80 is generally stored in a wound shape, the wound adhesive tape 80 is placed on the feeding mechanism 200 and unwound, the unwound adhesive tape 80 is conveyed to the feeding mechanism 300, and the cutting mechanism 400 performs beveling to form the adhesive tape 80 with an oblique angle.

Specifically, referring to fig. 4, the feeding mechanism 200 includes a tray 210 and a mounting seat 220, the tray 210 is fixedly disposed on the mounting seat 220, the tray 210 is circular, and the wound adhesive tape 80 is sleeved on the tray 210 and can rotate relative to the tray 210, so that the wound adhesive tape 80 is unwound and then conveyed to the feeding mechanism 300.

In some embodiments, referring to fig. 5, the tray 210 includes a disc 211 and a feeding plate 212, the disc 211 is fixed to one side of the feeding plate 212, the wound adhesive tape 80 is sleeved outside the disc 211, and a radial dimension of the feeding plate 212 is greater than a radial dimension of the disc 211, so that the feeding plate 212 can limit the wound adhesive tape 80 and prevent the adhesive tape 80 from slipping off the disc 211. In other embodiments, the disc 211 may also be rotatably disposed on the feeding plate 212 to enable the wound adhesive tape 80 to be smoothly unwound or wound.

Further, since the wound adhesive tape 80 is easy to collapse during unwinding and conveying to the feeding mechanism 300, the feeding mechanism 200 further includes a guide wheel 230, the guide wheel 230 is fixedly disposed on one side of the mounting base 220 on which the tray 210 is disposed, and is located between the tray 210 and the feeding mechanism 300, so as to tension the adhesive tape 80 and guide the adhesive tape 80, and prevent the adhesive tape 80 from being loosened or skewed during conveying to the feeding mechanism 300 to affect the length and angle of the oblique cutting of the adhesive tape 80.

Furthermore, the feeding mechanism 200 further includes an elastic member 240 and a cover plate 250, wherein the elastic member 240 is inserted outside the disc 211 and elastically abuts between the disc 211 and the adhesive tape 80 to prevent the adhesive tape 80 from freely rotating. The elastic member 240 is a spring post or a spring plate. Referring to fig. 4, the cover plate 250 is detachably covered on the top side of the disk 211 to limit the tape 80 between the cover plate 250 and the upper material plate 212, so as to prevent the tape 80 from slipping off the disk 211.

In some embodiments, the cover plate 250 is an iron plate, the top side of the circular disc 211 is provided with a first magnetic member 251, and the cover plate 250 and the circular disc 211 are connected by magnetic attraction, so that the cover plate 250 can be easily detached to replace or adjust the adhesive tape 80. The first magnetic member 251 is a permanent magnet or an electromagnet. In other embodiments, the cover plate 250 and the circular disc 211 may be fastened by fasteners such as screws or bolts.

Referring to fig. 3, the feeding mechanism 300 is mounted on the bottom plate 100 and close to the feeding mechanism 200 for receiving and conveying the adhesive tape 80.

Specifically, referring to fig. 6, the feeding mechanism 300 includes a first clamping assembly 310 and a clamping translation driving member 320, the first clamping assembly 310 is used for clamping and conveying the tape 80, and the clamping translation driving member 320 is connected to the first clamping assembly 310 to drive the first clamping assembly 310 to move in a translation manner along a first direction (i.e., an X direction shown in fig. 3).

Specifically, the first clamping assembly 310 can clamp the adhesive tape 80, so that the shearing mechanism 400 can obliquely cut the adhesive tape 80 between the first clamping assembly 310 and the feeding mechanism 200 to form the adhesive tape 80 with an oblique angle, and the first clamping assembly 310 can clamp the adhesive tape 80 with an oblique angle and move in a first direction in a translation manner under the driving of the clamping translation driving member 320, and convey the adhesive tape 80 with an oblique angle to the discharging port 501.

In some embodiments, referring to fig. 7, the clamping translation driving element 320 is an air cylinder, the clamping translation driving element 320 includes a cylinder body 321 and a movable rod 322, the movable rod 322 is fixedly connected to the first clamping assembly 310, and the cylinder body 321 drives the movable rod 322 to move in a first direction in a translation manner, so as to drive the first clamping assembly 310 to move in the first direction in the translation manner. In other embodiments, the clamp translation drive 320 may also be a motor or a lead screw assembly.

Referring to fig. 7, the first clamping assembly 310 includes two first clamping jaws 311311 and a first clamping driving member 312312, which are oppositely disposed, ends of the two first clamping jaws 311 are movably disposed on the first clamping driving member 312, the adhesive tape 80 is located between the two first clamping jaws 311, and the first clamping driving member 312 can drive the two first clamping jaws 311 to approach or separate from each other for clamping or releasing the adhesive tape 80.

In some embodiments, the first clamping driving element 312 is a clamping jaw cylinder, and the clamping jaw cylinder can drive the two first clamping jaws 311 to move synchronously, so that the structure is simple and the operation is convenient. In other embodiments, the first clamping driving member 312 may also be a motor, and each of the first clamping jaws 311 is connected to a motor, so that the two first clamping jaws 311 move synchronously or asynchronously, and the two first clamping jaws 311 can move closer to or away from each other.

Further, referring to fig. 7, the first clamping assembly 310 further includes a buffer 313, the buffer 313 is disposed on a side of the first clamping jaw 311 close to the adhesive tape 80, and the buffer 313 can be elastically deformed when being pressed, so as to prevent the adhesive tape 80 from being damaged by being directly contacted with the first clamping jaw 311, and thus the adhesive tape 80 can be protected. Specifically, the buffer 313 is a rubber pad or a silicone pad.

Since the height of the feeding mechanism 200 and the height of the first clamping jaw 311 of the first clamping assembly 310 cannot be kept consistent well, if only the first clamping assembly 310 is provided, the tape 80 between the feeding mechanism 200 and the first clamping assembly 310 is inclined relative to the horizontal direction, and the length and angle of the beveling are prone to be deviated when the cutting mechanism 400 bevels. Referring to fig. 6, in some embodiments, the feeding mechanism 300 further includes a second clamping assembly 330, the second clamping assembly 330 and the first clamping assembly 310 are spaced apart from each other along the first direction, and are located between the first clamping assembly 310 and the feeding mechanism 200 for clamping the adhesive tape 80.

Specifically, the feeding mechanism 300 includes a feeding slide rail 340 and a positioner 350, the feeding slide rail 340 extends along a first direction, the first clamping assembly 310 and the second clamping assembly 330 are both slidably disposed on the feeding slide rail 340 and have the same height, the second clamping assembly 330 is fixedly connected to the movable rod 322 of the clamping translational driving element 320, the clamping translational driving element 320 can drive the second clamping assembly 330 and the first clamping assembly 310 to synchronously move along the feeding slide rail 340, and the positioner 350 is disposed on the slide rail and is located on one side of the second clamping assembly 330 for limiting the second clamping assembly 330.

By setting the heights of the second clamping assembly 330 and the first clamping assembly 310 to be consistent and limiting the position of the second clamping assembly 330, when the feeding mechanism 300 receives the adhesive tape 80 supplied by the feeding mechanism 200, the adhesive tape 80 can be clamped and kept horizontally by the first clamping assembly 310 and the second clamping assembly 330, the adhesive tape 80 with an oblique angle is clamped and conveyed to the discharging port 501 by the first clamping assembly 310 after the adhesive tape 80 is obliquely cut by the shearing mechanism 400, and the oblique cutting accuracy of the adhesive tape 80 is high.

Referring to fig. 7, the second clamping assembly 330 includes two oppositely disposed second clamping jaws 331 and a second clamping driving member 332, and the second clamping driving member 332 can drive the two second clamping jaws 331 to approach or move away from each other.

In some embodiments, the second clamping driving element 332 is a clamping jaw cylinder, and the clamping jaw cylinder can drive the two second clamping jaws 331 to move synchronously, so that the structure is simple and the operation is convenient. In other embodiments, the second clamping driving member 332 can be a motor, and each of the second clamping jaws 331 is connected to a motor, so that the two second clamping jaws 331 move synchronously or asynchronously, and the two second clamping jaws 331 can move closer to or away from each other.

Further, referring to fig. 7, the feeding mechanism 300 further includes a first clamping seat 360 and a second clamping seat 370, the first clamping seat 360 and the second clamping seat 370 are slidably disposed on the feeding slide rail 340 side by side, the first clamping assembly 310 is fixedly disposed on the first clamping seat 360, the second clamping assembly 330 is fixedly disposed on the second clamping seat 370, and the movable rod 322 for clamping the translational driving member 320 penetrates through the first clamping seat 360 and the second clamping seat 370 and is fastened to the first clamping seat 360 and the second clamping seat 370.

In some embodiments, to prevent the clamping components from translating and the relative movement of the two clamping jaws from interfering with each other, the first clamping seat 360 includes a first horizontal plate 361 and a first vertical plate 362 that are vertically connected, the second clamping seat 370 includes a second horizontal plate 371 and a second vertical plate 372 that are vertically connected, the first clamping component 310 is fixedly disposed on the first vertical plate 362, the second clamping component 330 is fixedly disposed on the second vertical plate 372, the movable rod 322 of the clamping translation driving component 320 penetrates through the first vertical plate 362 and the second vertical plate 372, and the first horizontal plate 361 and the second horizontal plate 371 are slidably connected to the feeding slide rail 340. In other embodiments, the first holder 360 and the second holder 370 may also have a U-shape or other irregular shapes.

Referring to fig. 8 and 3, the cutting mechanism 400 includes a cutter 410, a cutting translation driving member 420 and a length adjusting member 430, the length adjusting member 430 is connected to the mounting plate, the length of the tape 80 extends along a first direction (i.e., the X direction shown in fig. 8), the cutting translation driving member 420 drives the cutter 410 to move along a second direction (i.e., the Y direction shown in fig. 8), the second direction forms an angle with the first direction, so that the tape 80 with an oblique angle is cut by the cutter 410, and the length adjusting member 430 can drive the cutter 410 to move along the first direction in a translation manner, so that the oblique cutting length of the tape 80 is adjustable.

Specifically, referring to fig. 9, in some embodiments, the length adjustment assembly 430 includes a length adjustment sliding rail 431, a length adjustment sliding block 432, and an adjustment handle 433, the length adjustment sliding rail 431 extends along a first direction and is slidably connected to the length adjustment sliding block 432, the cutting tool 410 cuts the adhesive tape 80 along a second direction, the adjustment handle 433 is fixedly disposed on the length adjustment sliding block 432, and by operating the adjustment handle 433, the length adjustment sliding block 432 can be driven to slide along the first direction, so as to drive the cutting tool 410 to move in a translation manner along the first direction.

In other embodiments, the length adjustment assembly 430 may also be an air cylinder, and includes a cylinder body and a piston rod, the piston rod is connected to the scissors 410, and the cylinder body drives the piston rod to move in a first direction in a translational manner, so as to drive the scissors 410 to move in a translational manner in the first direction.

In some embodiments, the shear translation drive 420 is a pneumatic cylinder. In other embodiments, the shear translation drive 420 is a lead screw assembly.

Referring to fig. 8, the cutting mechanism 400 further includes an angle adjustment assembly 440, the angle adjustment assembly 440 is connected to the scissors 410, and the angle adjustment assembly 440 can drive the scissors 410 to rotate around the vertical direction relative to the adhesive tape 80.

Specifically, the angle adjusting assembly 440 includes a fixing base 441 and an adjusting base 442, the fixing base 441 is connected to the length adjusting assembly 430, the scissors 410 is disposed on the adjusting base 442, and the adjusting base 442 is rotatably disposed on the fixing base 441. By rotating the adjustment seat 442, the scissor 410 is rotated in the vertical direction relative to the adhesive tape 80, thereby adjusting the angle at which the scissor 410 bevels the adhesive tape 80.

Further, in some embodiments, the angle adjustment assembly 440 further includes a limiting post 443, the adjustment base 442 has a limiting groove 442a, the limiting groove 442a is arc-shaped, and the limiting post 443 is inserted into the limiting groove 442a for limiting the rotation angle of the adjustment base 442. In other embodiments, the adjusting seat 442 may not have the limiting groove 442a, and the limiting post 443 may be fixed to the fixing seat 441 and close to the adjusting seat 442, and also can limit the adjusting seat 442.

Referring to fig. 8, the shearing mechanism 400 further includes a pressing block driving member 450, a first pressing block 460 and a second pressing block 470, the shearing tool 410 includes a first blade 411 and a second blade 412 which are hinged, the first blade 411 and the second blade 412 are located between the first pressing block 460 and the second pressing block 470, and the pressing block driving member 450 drives the first pressing block 460 and the second pressing block 470 to approach or separate from each other, so as to drive the first blade 411 and the second blade 412 to open or close.

In some embodiments, the pressing block driving member 450 is a clamping jaw cylinder, and the clamping jaw cylinder can drive the first pressing block 460 and the second pressing block 470 to move synchronously, so that the structure is simple and the operation is convenient. In other embodiments, the pressing block driving member 450 may be a motor, and the first pressing block 460 and the second pressing block 470 are respectively connected to a motor, so that the first pressing block 460 and the second pressing block 470 move synchronously or asynchronously, and the first pressing block 460 and the second pressing block 470 can move close to or away from each other.

In some embodiments, referring to fig. 9, the cutting mechanism 400 further includes a cutting seat 480, the cutting seat 480 is fixedly disposed on the pressing block driving member 450, the cutting seat 480 is made of iron, the cutting tool 410 is detachably connected to the cutting seat 480 through a second magnetic member 490, a portion of the cutting tool is exposed out of the cutting seat 480, and a portion of the cutting tool 410 exposed out of the cutting seat 480 is located between the first pressing block 460 and the second pressing block 470, so as to drive the first blade 411 and the second blade 412 to open or close, and cut the adhesive tape 80. The second magnetic member 490 is a permanent magnet or an electromagnet. In other embodiments, the shear 410 may be attached to the shear block 480 by fasteners such as screws or bolts.

Referring to fig. 1, the beveling apparatus for an adhesive tape 80 further includes a protective cover 500, the protective cover 500 is covered on the bottom plate 100, and a discharge hole 501 is formed at one side of the protective cover 500 for taking out the adhesive tape 80.

In some embodiments, please refer to fig. 2 in combination, the protective cover 500 includes a protective cover 510 and a protective side plate 520, referring to fig. 2, the protective cover 510510 and the protective side plate 520520 enclose a receiving space 530 to receive the bottom plate 100, the feeding mechanism 200, the feeding mechanism 300 and the shearing mechanism 400, the discharge port 501 is disposed on the protective side plate 520, the protective cover 510 is rotatably connected to the protective side plate 520, the protective cover 510 can be opened when the components in the receiving space 530 need to be adjusted, and the protective cover 510 is closed when the adhesive tape 80 is sheared, so as to avoid potential safety hazards. In other embodiments, the guard cover 510 may be slidably connected to the guard side plate 520.

Further, referring to fig. 1, a handle 511 is provided on the protecting cover 510 to facilitate opening and closing of the protecting cover 510. In some embodiments, the pull 511 is secured to the shield cover 510 by screws or bolts. In other embodiments, the handle 511 and the cover 510 may be connected by welding or riveting, or may be an integral structure.

Further, referring to fig. 3, the beveling apparatus for the adhesive tape 80 further includes a control module (not shown), a sensor 600 and a button 700, wherein the control module, the sensor 600 and the button 700 are electrically connected, the sensor 600 is disposed on the bottom plate 100 and near the discharge hole 501 for detecting whether the adhesive tape 80 is on the feeding mechanism 200, and the button 700 is connected with the feeding mechanism 300 and the shearing mechanism 400 and is protrudingly disposed on the protection side plate 520 for controlling the feeding mechanism 300 and the shearing mechanism 400 to open and close.

In some embodiments, the buttons 700 include an on button 710 and an off button 720, and the on button 710 and the off button 720 control the feeding mechanism 300 and the cutting mechanism 400 to be turned on and off, respectively. In other embodiments, the start button 710 and the stop button 720 may be integrated into one, thereby simplifying the structure.

The adhesive tape 80 beveling device is provided with the scissors 410, the length adjusting assembly 430 and the angle adjusting assembly 440, the scissors 410 can obliquely cut the adhesive tape 80 with oblique angles, the length and the angle of the adhesive tape 80 with oblique angles can be adjusted by adjusting the length adjusting assembly 430 and the angle adjusting assembly 440, the precision is high, the operation is convenient, and the structural design is reasonable.

An embodiment of a method for beveling an adhesive tape includes:

the tape 80 is fed to the cutting mechanism 400, with the tape 80 extending in a first direction.

Specifically, the adhesive tape 80 in a roll shape is placed on the tray 210 of the feeding mechanism 200, the opening button 710 is opened, the control module drives the feeding mechanism 300 to receive the adhesive tape 80 supplied by the feeding mechanism 200, the first clamping driving member 312 drives the two first clamping jaws 311 to approach each other to clamp the adhesive tape 80, the second clamping driving member 332 drives the two second clamping jaws 331 to approach each other to clamp the adhesive tape 80, so that the adhesive tape 80 between the first clamping assembly 310 and the second clamping assembly 330 is tensioned and kept horizontal, and the adhesive tape 80 extends in the first direction.

Further, when the first clamping assembly 310 clamps the adhesive tape 80, an end of the adhesive tape 80 is at least partially exposed from the first clamping jaw 311, so as to fix the adhesive tape 80.

The cutting mechanism 400 includes a cutter 410 and a length adjustment assembly 430, the cutter 410 cuts the adhesive tape 80 along a second direction forming an angle with the first direction, and the length adjustment assembly 430 drives the cutter 410 to move in a translational manner along the first direction, so that the cutting length of the adhesive tape 80 is adjustable.

Specifically, after the sensor 600 detects that the first clamping jaw 311 of the first clamping assembly 310 clamps the adhesive tape 80, a signal is transmitted to the control module, and the control module drives the scissors 410 to cut the adhesive tape 80 along the second direction to form the adhesive tape 80 with an oblique angle, at this time, if the cutting length of the adhesive tape 80 is not appropriate, the length adjusting assembly 430 drives the scissors 410 to move in a translational manner along the first direction, so that the cutting length of the adhesive tape 80 is adjustable.

Further, the shearing mechanism 400 further includes an angle adjusting assembly 440, the angle adjusting assembly 440 includes a fixing seat 441 and an adjusting seat 442, the scissors 410 are disposed on the adjusting seat 442, and the scissors 410 are rotated around the vertical direction relative to the adhesive tape 80 by rotating the adjusting seat 442, so as to adjust the beveling angle when the scissors 410 shear the adhesive tape 80.

Further, the control module actuates the first clamping assembly 310 to clamp the beveled adhesive tape 80, and the first clamping assembly 310 moves in a first direction to convey the beveled adhesive tape 80 to the dispensing outlet 501; when the sensor 600 detects that the adhesive tape 80 on the first clamping assembly 310 is removed, the control module drives the first clamping assembly 310 to move in a horizontal manner along the first direction to return to the original position, and the first clamping driving member 312 drives the two first clamping jaws 311 to move away from each other, so as to continue the conveying and beveling cycle of the next section of adhesive tape 80; after the beveling of the tape 80 is completed, the feeding mechanism 300 and the shearing mechanism 400 can be closed by pressing the closing button 700.

In the above tape beveling method, the scissors 410 can cut the tape 80 with an oblique angle, and the length and the angle of the tape 80 with the oblique angle can be adjusted by adjusting the length adjusting assembly 430 and the angle adjusting assembly 440, so that the precision is high and the operation is convenient.

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-mentioned 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 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 (12)

1. An adhesive tape beveling apparatus, comprising:

a base plate;

the feeding mechanism is arranged on the bottom plate and used for providing adhesive tapes;

the feeding mechanism is arranged on the bottom plate, is close to the feeding mechanism and is used for receiving and conveying the adhesive tape; and

shearing mechanism, including shearing utensil, shearing translation driving piece and length adjustment subassembly, length adjustment subassembly install in the bottom plate, the sticky tape extends along the first direction, it orders about to shear the translation driving piece the shearing utensil is followed the second direction motion and is cuted the sticky tape, the second direction with the first direction is the contained angle, length adjustment subassembly can order about the shearing utensil is followed the first direction translation motion, so that the shearing length of sticky tape is adjustable.

2. The tape beveling apparatus of claim 1 wherein the length adjustment assembly includes a length adjustment track extending along the first direction and slidably coupled to the length adjustment track, a length adjustment slider, and an adjustment handle, wherein manipulation of the adjustment handle causes the length adjustment slider to slide along the length adjustment track, thereby moving the scissors in a translational motion along the first direction.

3. The tape beveling apparatus of claim 1 wherein the cutting mechanism further comprises an angle adjustment assembly coupled to the shears that enables the shears to rotate about a vertical axis relative to the tape.

4. The beveling apparatus according to claim 3, wherein the angle-adjusting assembly comprises a fixing base and an adjusting base, the fixing base is connected to the length-adjusting assembly, the adjusting base is rotatably disposed on the fixing base, and the scissors are disposed on the adjusting base.

5. The adhesive tape beveling apparatus according to claim 4 wherein the angle adjustment assembly further comprises a limiting post, the adjustment base is provided with a limiting groove, the limiting groove is arc-shaped, and the limiting post is inserted into the limiting groove.

6. The tape beveling apparatus of claim 1 wherein the cutting mechanism further comprises a blade drive member, a first blade and a second blade, the cutter comprises a first blade and a second blade that are hinged to each other, the first blade and the second blade are disposed between the first blade and the second blade, and the blade drive member can drive the first blade and the second blade to move toward or away from each other to open or close the first blade and the second blade.

7. The apparatus of claim 1, wherein the feeding mechanism comprises a first clamping assembly for clamping and transporting the tape and a clamping translational driving member connected to the first clamping assembly for driving the first clamping assembly to move in the first direction in a translational manner.

8. The tape beveling apparatus of claim 7 wherein the first clamp assembly includes two opposing first jaws and a first clamp drive capable of moving the two first jaws toward and away from each other.

9. The tape beveling apparatus of claim 7 wherein the feed mechanism further includes a second clamping assembly spaced apart from the first clamping assembly in the first direction and positioned between the first clamping assembly and the feed mechanism for clamping the tape.

10. The apparatus of claim 9, wherein the feeding mechanism further comprises a feeding slide rail and a positioning device, the first clamping assembly and the second clamping assembly are slidably disposed on the feeding slide rail, the clamping driving member can drive the second clamping assembly and the first clamping assembly to synchronously move in a translational manner along the feeding slide rail, and the positioning device is disposed on the slide rail and located at one side of the second clamping assembly for positioning the second clamping assembly.

11. The tape beveling apparatus of claim 10 wherein the second clamp assembly includes two oppositely disposed second jaws and a second clamp drive capable of moving the two second jaws toward and away from each other.

12. The apparatus of claim 1, wherein the feeding mechanism comprises a tray, a mounting seat, a guide wheel and an elastic member, the tray is fixed to the mounting seat, the tray is circular to wind the adhesive tape around the tray, the guide wheel is fixed to the side of the mounting seat where the tray is located, the guide wheel is located between the tray and the feeding mechanism to tension the adhesive tape, and the elastic member is inserted into the tray and elastically supported between the tray and the adhesive tape.

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