CN216579217U - Full-automatic numerical control cutting sticking film machine - Google Patents

Abstract

The utility model relates to an equipment is used in house processing, concretely relates to full-automatic numerical control cutting sticking film machine, including frame, control panel, unwinding device and glued membrane dish, unwinding device is located one side of frame, its characterized in that: the rack is provided with a straightening guide device with the functions of straightening and guiding the adhesive tape, and an inserting strip film sticking device with the functions of inserting strips and sticking films; the cutting and film pasting device comprises an adhesive tape clamping hand, a film pasting assembly and a cutter, wherein the adhesive tape clamping hand clamps one end side surface of the adhesive tape and penetrates the other end side surface into the section bar; the straightening guide device is positioned at one side, namely the front end, of the strip inserting and film pasting device, the unwinding device is connected with the other side of the straightening guide device, the straightening guide device fixes the adhesive tape and enables one end of the adhesive tape to be opposite to the sectional material. The utility model provides an automatic change the level height, full-automatic numerical control cutting sticking film machine that the pad pasting is of high quality.

Description

Full-automatic numerical control cutting sticking film machine

Technical Field

The utility model relates to an equipment is used in house processing, concretely relates to full-automatic numerical control cutting sticking film machine.

Background

In the existing technology for inserting or penetrating and sticking the household section bar, because the plastic strip of the inserting strip has strong flexibility, is easy to modify, has small structural part specification and is inconvenient for mechanical operation, the manual inserting operation is mainly adopted, and then the mechanical semi-automatic sticking is carried out, so that the production efficiency is low, the labor cost is high, and the technology needs to be improved.

Meanwhile, the existing complex interface film has poor quality and needs to be improved.

Disclosure of Invention

The utility model discloses to current cutting or wear the not enough of strip, pad pasting process equipment technical existence, provide an automatic competent, full-automatic numerical control cutting sticking film machine that the pad pasting is of high quality.

The technical scheme of the utility model as follows:

the utility model provides a full-automatic numerical control cutting sticking film machine, includes frame, control panel, unwinding device and glued membrane dish, and unwinding device is located one side of frame, its characterized in that: the rack is provided with a straightening guide device with the functions of straightening and guiding the adhesive tape, and an inserting strip film sticking device with the functions of inserting strips and sticking films; the cutting and film pasting device comprises an adhesive tape clamping hand, a film pasting assembly and a cutter, wherein the adhesive tape clamping hand clamps one end side surface of the adhesive tape and penetrates the other end side surface into the section bar; the straightening guide device is positioned at one side, namely the front end, of the strip inserting and film pasting device, the unwinding device is connected with the other side of the straightening guide device, the straightening guide device fixes the adhesive tape and enables one end of the adhesive tape to be opposite to the sectional material.

Furthermore, the straightening guide device comprises a guide die and a plurality of groups of straightening wheels; the straightening wheel presses the adhesive tape to enable the adhesive tape to penetrate into the guide die partially after the adhesive tape is aligned.

Furthermore, the film sticking assembly comprises a film sticking wheel, an upper film pressing wheel and a side film pressing wheel, a film is arranged on the film sticking disc, and the film is led out by the film sticking wheel and passes through the lower part of the cutter; the upper film pressing wheel and the side film pressing wheel are distributed at a certain angle, and the angle between the upper film pressing wheel and the side film pressing wheel is consistent with the angle of the two sides of the film of the workpiece to be filmed.

Further, the film pasting assembly comprises a plurality of groups of upper film pressing wheels and a plurality of groups of side film pressing wheels.

Furthermore, the film pressing wheel is matched with the upper surface of the section bar on the workpiece to be filmed in parallel, and the side film pressing wheel is matched with the side surface of the section bar on the workpiece to be filmed in parallel.

Furthermore, the upper film pressing wheel and the side film pressing wheel are symmetrically distributed at an angle of 90 degrees.

Furthermore, the film sticking assembly further comprises a V-shaped film pressing wheel, the V-shaped film pressing wheel is located at the front end of the upper film pressing wheel and the front end of the side film pressing wheel, two sides of the V-shaped film pressing wheel are matched with two sides of the film sticking part corresponding to the film sticking workpiece, and the angle of the two sides of the V-shaped film pressing wheel is smaller than that of the two sides of the film sticking part corresponding to the film sticking workpiece.

Furthermore, the film pasting assembly further comprises an upper pressure sheave and a side pressure sheave; the upper pressure grooved wheel and the side pressure grooved wheel are distributed at a certain angle, and the shapes of the upper pressure grooved wheel and the side pressure grooved wheel are matched with the shapes of two sides of the adhesive tape to be filmed on the workpiece.

Furthermore, the upper pressure sheave and the side pressure sheave on the film pasting component are arranged in front of each other and behind each other.

Furthermore, a driving device servo motor is arranged on the straightening guide device, and the servo motor drives the straightening guide device to move back and forth along a rack positioned on the rack.

Furthermore, an adhesive tape clamping hand on the adhesive tape inserting and film pasting device clamps the adhesive tape, the servo motor drives the adhesive tape assembly to move, the adhesive tape clamping hand clamps one end side face of the adhesive tape and gradually penetrates the other side into the section until the adhesive tape in the section penetrates to a set position, the servo motor stops moving, then the adhesive tape clamping hand releases the adhesive tape, and the adhesive tape penetrates into the section.

Furthermore, the film pasting assembly comprises a film gluing wheel, a V-shaped film pressing wheel, an upper film pressing wheel, a side film pressing wheel, an upper grooved wheel and a side grooved wheel; the upper film pressing wheel and the side film pressing wheel are symmetrically distributed at a certain angle; when the film is pasted, one side of the adhesive tape penetrates into the section bar, the adhesive film is led out to the two sides of the workpiece through the adhesive film wheel, the end part of the adhesive film is initially pressed to one end of the workpiece, the servo motor drives the pasting film assembly to move, so that the adhesive film led out through the adhesive film wheel forms a certain angle along the central line and is pasted to the outer side of the adhesive tape on the workpiece, the adhesive film is pressed to the two sides of the adhesive tape along the shape of the side face of the adhesive tape through the upper pressure grooved wheel and the side pressure grooved wheel, finally, the adhesive film is pressed to the two sides of the section bar through the upper pressure grooved wheel and the side pressure film wheel, when the film is completely pasted on the workpiece, the servo motor stops moving, and the cutter acts to cut the adhesive tape and the adhesive film.

Furthermore, the processed piece is arranged on the rack, the inserting strip film sticking device is positioned on the right side of the rack, one side of the adhesive tape on the unreeling device 2 penetrates into the straightening guide device, and the adhesive film is arranged; firstly, clamping one end side surface of an adhesive tape by an adhesive tape clamping hand, driving a cutting and film pasting device to move by a servo motor, clamping one end side surface of the adhesive tape by the adhesive tape clamping hand, penetrating the other side of the adhesive tape into the right side of the section bar, and moving the cutting and film pasting device until one side of the adhesive tape is inserted into the left side of the section bar; secondly, the adhesive film is led out to a workpiece through an adhesive film wheel, the cutting strip film sticking device moves towards the right side to drive the film sticking device to move to stick the adhesive film to the workpiece, and when the cutting strip film sticking device moves to the right side, the cutter acts to cut off the adhesive tape and the adhesive film, so that one workpiece finishes cutting and sticking the adhesive film; and finally, repeating the process flow, reciprocating the cutting and film sticking device, and fully automatically and numerically controlling the cutting and film sticking.

The utility model has the advantages that: firstly, the automatic operation of the integration of the cutting and the film pasting is realized, the manual cutting is replaced, and the production efficiency is high; secondly, the film sticking device adopts a plurality of groups of film pressing wheels to realize the deformation of the film, then presses the film into the gap between the adhesive tape and the sectional material according to the structure of the adhesive tape, and adopts an upper pressure grooved wheel and a side pressure grooved wheel which are arranged in front and behind the groove between the adhesive tape and the sectional material to avoid the synchronous operation to pull the film, and finally the film is gradually compressed through a plurality of groups of upper film pressing wheels and a plurality of groups of side pressure film pressing wheels; thirdly, the equipment realizes the reciprocating operation, the one-way motion is divided into pens to realize the cutting and the film pasting, the production efficiency is high, and meanwhile, the full automation is realized by adopting a control panel and other related numerical control systems.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic top view of the present invention.

Fig. 3 is a schematic view of the structure of the present invention.

Fig. 4 is a second schematic perspective view of the present invention.

Fig. 5 is an enlarged schematic view of a portion a of fig. 1.

Fig. 6 is an enlarged schematic view of the structure at B in fig. 4.

The enlarged structure of fig. 2C in fig. 7 is schematically shown.

Fig. 8 is an enlarged view of the structure at D in fig. 2.

Fig. 9 is a schematic perspective view of the machined part of the present invention.

Fig. 10 is a schematic view of the front view of the workpiece of the present invention.

In the figure: 1. a frame; 11. a rack; 2. an unwinding device; 3. a control panel; 4. a cutting film sticking device; 41. a servo motor; 42. clamping the adhesive tape; 43. a film pasting component; 431. a film wheel; 432. a V-shaped film pressing wheel; 433. an upper pressure sheave; 434. side pressure grooved wheels; 435. pressing a film wheel; 436. side pressing film wheels; 44. a cutter; 5. a straightening guide device; 51. a straightening wheel; 52. guiding the mold; 6. processing a workpiece; 61. a section bar; 62. an adhesive tape; 63. a glue film; 7. and (5) a film plate.

Detailed Description

To illustrate the present invention more clearly, the following description is given with reference to the accompanying drawings and the detailed description.

As shown in fig. 1-10, a full-automatic numerical control cutting sticking film machine, includes frame 1, control panel 3, unwinding device 2 and glued membrane dish 7, and unwinding device 2 is located one side of frame 1, its characterized in that: the frame 1 is provided with a straightening guide device 5 with the functions of straightening and guiding the adhesive tape 62, and a cutting and film sticking device 4 with the functions of cutting and film sticking; the cutting and film sticking device 4 comprises an adhesive tape clamping hand 42, a film sticking assembly 43 and a cutter 44, wherein the adhesive tape clamping hand 42 clamps one end side surface of an adhesive tape 62 and penetrates the other end side surface into the section 61; the straightening and guiding device 5 is located at one side, namely the front end, of the inserting strip film sticking device 4, the unreeling device 2 is connected to the other side of the straightening and guiding device 5, the straightening and guiding device 5 fixes the adhesive tape 62, and one end of the adhesive tape 62 is opposite to the section 61.

As shown in fig. 7, the straightening guide 5 includes a guide mold 52 and a plurality of sets of straightening wheels 51; the straightening wheel 51 presses the strip 62 in line with the rear part passing into the guide die 52.

As shown in fig. 5 to 7, the film sticking assembly 43 comprises a film sticking wheel 431, an upper film pressing wheel 435 and a side film pressing wheel 436, a film 63 is mounted on the film tray 7, and the film 63 is led out through the film sticking wheel 431 and passes through the lower part of the cutter 44; the upper film pressing wheel 435 and the side film pressing wheel 436 are distributed at a certain angle, and the angle between the upper film pressing wheel 435 and the side film pressing wheel 436 is consistent with the angles of the two sides of the film to be pasted on the workpiece 6.

The lamination assembly 43 includes a plurality of sets of top lamination wheels 435 and a plurality of sets of side lamination wheels 436.

The film pressing wheel 435 is matched with the upper surface of the section bar 61 on the workpiece 6 to be filmed in parallel, and the side film pressing wheel 436 is matched with the side surface of the section bar 61 on the workpiece 6 to be filmed in parallel.

The upper film pressing wheel 435 and the side film pressing wheel 436 are symmetrically distributed at an angle of 90 degrees.

The film sticking assembly 43 further comprises a V-shaped film pressing wheel 432, the V-shaped film pressing wheel 432 is positioned at the front ends of the upper film pressing wheel 435 and the side film pressing wheel 436, two sides of the V-shaped film pressing wheel 432 are matched with two sides of the corresponding film sticking part of the to-be-pasted film machined part 6, and the angle of the two sides of the V-shaped film pressing wheel 432 is smaller than that of the two sides of the corresponding film sticking part of the to-be-pasted film machined part 6.

The film sticking assembly 43 further comprises an upper pressure grooved wheel 433 and a side pressure grooved wheel 434; the upper grooved wheel 433 and the side grooved wheel 434 are distributed at a certain angle, and the shapes of the upper grooved wheel 433 and the side grooved wheel 434 are matched with the shapes of two sides of the adhesive tape 62 to be filmed on the workpiece 6.

The upper pressure grooved wheel 433 and the side pressure grooved wheel 434 on the film sticking assembly 43 are arranged in front of each other and behind each other.

As shown in fig. 5 to 10, a driving device servo motor 41 is mounted on the straightening guide 5, and the servo motor 41 drives the straightening guide 5 to reciprocate along the rack 11 on the rack 1.

The adhesive tape clamping hand 42 on the adhesive tape inserting and film sticking device 4 clamps the adhesive tape 62 tightly, the servo motor 41 drives the film sticking assembly 43 to move, the adhesive tape clamping hand 42 clamps one end side of the adhesive tape 62 and penetrates the other side into the section bar 61 gradually, the servo motor 41 stops moving until the adhesive tape 62 in the section bar 61 penetrates to a set position, then the adhesive tape clamping hand 42 loosens the adhesive tape 62, and the adhesive tape 62 penetrates into the section bar 61.

The film sticking assembly 43 comprises a film sticking wheel 431, a V-shaped film pressing wheel 432, an upper film pressing wheel 435, a side film pressing wheel 436, an upper groove pressing wheel 433 and a side groove pressing wheel 434; the upper film pressing wheel 435 and the side film pressing wheel 436 are symmetrically distributed at a certain angle; during film pasting, one side of the adhesive tape 62 penetrates into the section bar 61, the adhesive film 63 is led out to the two sides of the workpiece 6 through the adhesive film wheel 431 and the end part is initially pressed to one end of the workpiece 6, the servo motor 41 drives the film pasting assembly 43 to move, so that the V-shaped film pressing wheel 432 firstly forms a certain angle on the adhesive film 63 led out through the adhesive film wheel 431 along the central line and pastes the adhesive film 63 to the outer side of the adhesive tape 62 on the workpiece 6, then the adhesive film 63 is pressed to the two sides of the adhesive tape 62 along the shape of the side surface of the adhesive tape 62 through the upper groove pressing wheel 433 and the side groove pressing wheel 434, finally, the adhesive film 63 is pressed to the two sides of the section bar 61 through the upper film pressing wheel 435 and the side film pressing wheel 436 along the shape of the side surface of the section bar 61, when the workpiece 6 is completely pasted with the film, the servo motor 41 stops moving, and the cutter 44 cuts the adhesive film 62 and the adhesive film 63.

In actual use, a workpiece 6 is arranged on the rack 1, the inserting strip film sticking device 4 is positioned on the right side of the rack 1, one side of an adhesive tape 62 on the unreeling device 2 penetrates into the straightening guide device 5, and the adhesive film 63 is arranged; firstly, the adhesive tape clamping hand 42 clamps one end side surface of the adhesive tape 62, the servo motor 41 drives the inserting strip film sticking device 4 to move, the adhesive tape clamping hand 42 clamps one end side surface of the adhesive tape 62 to penetrate the other side of the adhesive tape 62 into the right side of the section bar 61, and the inserting strip film sticking device 4 moves until one side of the adhesive tape 62 is inserted into the left side of the section bar 61; secondly, the adhesive film 63 is led out to the workpiece 6 through the adhesive film wheel 431, the cutting strip film sticking device 4 moves towards the right side to drive the film sticking device 4 to move to stick the adhesive film 63 to the workpiece 6, when the cutting strip film sticking device 4 moves to the right side, the cutter 44 acts to cut off the adhesive tape 62 and the adhesive film 63, and one workpiece 6 finishes cutting and sticking the film; and finally, repeating the process flow, moving the cutting and film sticking device 4 back and forth, and fully automatically and numerically controlling the cutting and film sticking.

The automatic operation of the integration of the cutting and the film sticking is realized, manual cutting is replaced, and the production efficiency is high; secondly, the film sticking device 4 adopts a plurality of groups of film pressing wheels to realize the deformation of the film 63, presses the film 63 into the gap between the adhesive tape 62 and the section bar 61 according to the structure of the adhesive tape 62, avoids the synchronous operation of pulling the film 63 because the groove type between the adhesive tape 62 and the section bar 61 adopts the upper pressure grooved wheel 433 and the side pressure grooved wheel 434 one in front and one in back, and finally gradually compresses through a plurality of groups of upper film pressing wheels 435 and a plurality of groups of side pressure film pressing wheels 436, and comprehensively improves the sticking quality of the film 63 on the section bar 61 through a plurality of technical innovation designs; thirdly, the equipment realizes the reciprocating operation, the one-way motion is divided into pens to realize the cutting and the film sticking, the production efficiency is high, and meanwhile, the full automation is realized by adopting a control panel and other related numerical control systems.

The above embodiments should not be considered as limitations to the scope of the present invention, and all modifications made by those skilled in the art based on the technical solutions or means of the present invention should fall into the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a full-automatic numerical control cutting sticking film machine, includes frame (1), control panel (3), unwinding device (2) and glued membrane dish (7), and unwinding device (2) are located one side of frame (1), its characterized in that: the frame (1) is provided with a straightening guide device (5) with the functions of straightening and guiding the adhesive tape (62) and a cutting and film sticking device (4) with the functions of cutting and film sticking; the cutting and film sticking device (4) comprises an adhesive tape clamping hand (42), a film sticking assembly (43) and a cutter (44), wherein the adhesive tape clamping hand (42) clamps the side surface of one end of an adhesive tape (62) and penetrates the other side into the section bar (61); the straightening guide device (5) is positioned at one side, namely the front end, of the inserting strip film sticking device (4), the other side of the straightening guide device (5) is connected with the unreeling device (2), the straightening guide device (5) fixes the adhesive tape (62) and enables one end of the adhesive tape (62) to be opposite to the sectional material (61) of the adhesive tape.

2. The full-automatic numerical control cutting laminator according to claim 1, wherein: the straightening guide device (5) comprises a guide die (52) and a plurality of groups of straightening wheels (51); the straightening wheel (51) presses the strip (62) in line with the rear part passing into the guide die (52).

3. The full-automatic numerical control cutting laminator according to claim 1, wherein: the film sticking assembly (43) comprises a film sticking wheel (431), an upper film pressing wheel (435) and a side film pressing wheel (436), a film (63) is arranged on the film sticking disc (7), and the film (63) is led out through the film sticking wheel (431) and passes through the lower part of the cutter (44); the upper film pressing wheel (435) and the side film pressing wheel (436) are distributed at a certain angle, and the angle between the upper film pressing wheel (435) and the side film pressing wheel (436) is consistent with the angle of the two sides of the film to be pasted on the workpiece (6).

4. The full-automatic numerical control cutting laminator according to claim 3, wherein: the upper film pressing wheel (435) is matched with the upper surface of the section bar (61) on the workpiece (6) to be filmed in parallel, and the side film pressing wheel (436) is matched with the side surface of the section bar (61) on the workpiece (6) to be filmed in parallel.

5. The full-automatic numerical control cutting laminator according to claim 3, wherein: the upper film pressing wheel (435) and the side film pressing wheel (436) are symmetrically distributed at an angle of 90 degrees.

6. The full-automatic numerical control slip film sticking machine according to claim 1 or 3, characterized in that: the film sticking assembly (43) further comprises a V-shaped film pressing wheel (432), the V-shaped film pressing wheel (432) is located at the front end of the upper film pressing wheel (435) and the front end of the side film pressing wheel (436), two sides of the V-shaped film pressing wheel (432) are matched with two sides of a film sticking part corresponding to the film sticking workpiece (6), and angles of two sides of the V-shaped film pressing wheel (432) are smaller than angles of two sides of a film sticking part corresponding to the film sticking workpiece (6).

7. The full-automatic numerical control slip film sticking machine according to claim 1 or 3, characterized in that: the film sticking assembly (43) further comprises an upper pressure sheave (433) and a side pressure sheave (434); the upper pressure grooved wheel (433) and the side pressure grooved wheel (434) are distributed at a certain angle, and the shapes of the upper pressure grooved wheel (433) and the side pressure grooved wheel (434) are matched with the shapes of two sides of the adhesive tape (62) to be filmed on the workpiece (6).

8. The full-automatic numerical control cutting laminator according to claim 1, characterized in that: a driving device servo motor (41) is installed on the straightening guide device (5), and the servo motor (41) drives the straightening guide device (5) to move back and forth along a rack (11) located on the rack (1).

9. The full-automatic numerical control cutting laminator according to claim 1, characterized in that: the adhesive tape on the inserting strip film sticking device (4) clamps the adhesive tape (62) by hand (42), the servo motor (41) drives the film sticking component (43) to move, the adhesive tape clamps the adhesive tape (62) by hand (42), one end side of the other side gradually penetrates into the section bar (61), the servo motor (41) stops moving until the adhesive tape (62) in the section bar (61) penetrates to a set position, then the adhesive tape clamps the adhesive tape (42) to loosen the adhesive tape (62), and the adhesive tape (62) penetrates into the section bar (61).

10. The full-automatic numerical control cutting laminator according to claim 1, wherein: the film sticking assembly (43) comprises a film gluing wheel (431), a V-shaped film pressing wheel (432), an upper film pressing wheel (435), a side film pressing wheel (436), an upper grooved wheel (433) and a side grooved wheel (434); the upper film pressing wheel (435) and the side film pressing wheel (436) are symmetrically distributed at a certain angle; when the film is pasted, one side of the adhesive tape (62) penetrates into the section bar (61), the adhesive film (63) is led out to the two sides of the workpiece (6) through the adhesive film wheel (431) and the end part is initially pressed to one end of the workpiece (6), the servo motor (41) drives the pasting assembly (43) to move, so that the V-shaped film pressing wheel (432) firstly presses the adhesive film (63) led out through the adhesive film wheel (431) to the outer side of the adhesive tape (62) on the workpiece (6) along the central line at a certain angle, then the upper pressure groove wheel (433) and the side pressure groove wheel (434) press the adhesive film (63) to the two sides of the adhesive tape (62) along the shape of the side surface of the adhesive tape (62), finally, the upper pressure film wheel (435) and the side pressure film wheel (436) press the adhesive film (63) to the two sides of the section bar (61) along the shape of the side surface of the section bar (61), and when the workpiece (6) is completely pasted, the servo motor (41) stops moving, the cutter (44) operates to cut the adhesive tape (62) and the adhesive film (63).

Images